@Research Paper <#LINE#>ADME-Toxpredictions of 3-benzimidazol-1-yl-1-(4-phenyl piperazine -1-yl) propan-1-one and their derivatives<#LINE#>Anuradhabai @Sandala,P. Soma @Yasaswi,A.@Ravindernath,K.S.K. Rao @Patnaik <#LINE#>1-9<#LINE#>1.ISCA-RJCS-2020-006.pdf<#LINE#>S.N.Vanita Pharmacy Mahavidyalaya, Tarnaka, Hyderabad-500007, Telangana, India@S.N.Vanita Pharmacy Mahavidyalaya, Tarnaka, Hyderabad-500007, Telangana, India@Faculty of Pharmacy, Osmania University, Hyderabad- 500007 Telangana, India@Department of Chemical Engineering, Dire Dawa Institute of Technology, P.box.1362, Dire Dawa University, Ethiopia<#LINE#>20/2/2020<#LINE#>8/9/2020<#LINE#>A novel approach introduces early, parallel evaluation of efficacy and biopharmaceutical Properties of drug candidates. Knowledge regarding pharmacokinetics, toxicity would be helpful for producing an effective drug so in early stage of drug development ADMET properties are to be considered. Toxicity determinations of chemicals are essential to recognise deleterious effects on humans, animals, plants, or the environment. Insilco models are used for prediction of ADMET properties for reduction of time, costs and animal experiments. The objective of this study was to obtain drug likeness and low toxicity of 3-benzimidazol-1-yl-1-(4-phenylpiperazine -1-yl) propan-1-one. The 2D structures were generated using the chemdraw application. The Swiss ADME, PkCSM, Lazar and Protox applications were used to predict pharmacokinetics, toxicity properties, and end point carcinogenicity. Compounds are adept to break through the BBB except compound B to affect the CNS and they are predicted for the enzymes of the cytochrome P450. They are predicted to be substrates for the P-gp protein and showing good oral bioavailability. The investigated compounds reveal that carcinogenic potential and hepatotoxicity.<#LINE#>J. Wang and L. Urban (2004).@The impact of early ADME profiling on drug discovery and development strategy.@Drug Discovery World Fall, 73-86.@Yes$Raies, A. B., & Bajic, V. B. (2016).@In silico toxicology: computational methods for the prediction of chemical toxicity.@Wiley Interdisciplinary Reviews: Computational Molecular Science, 6(2), 147-172.@Yes$Ntie-Kang, F., Lifongo, L. L., Mbah, J. A., Owono, L. C. O., Megnassan, E., Mbaze, L. M. A., ... & Efange, S. M. (2013).@In silico drug metabolism and pharmacokinetic profiles of natural products from medicinal plants in the Congo basin.@In silico pharmacology, 1(1), 1-11.@Yes$Dong, J., Wang, N. N., Yao, Z. J., Zhang, L., Cheng, Y., Ouyang, D., ... & Cao, D.S. (2018).@ADMET lab: A platform for systematic ADMET evaluation based on a comprehensively collected ADMET database.@Journal of cheminformatics, 10(1), 1-11.@Yes$Daina, A., Michielin, O., & Zoete, V. (2017).@Swiss ADME: a free web tool to evaluate pharmacokinetics, drug-likeness and medicinal chemistry friendliness of small molecules.@Scientific reports, 7(1), 1-13.@Yes$Daina, A., & Zoete, V. (2016).@A boiled‐egg to predict gastrointestinal absorption and brain penetration of small molecules.@Chem Med Chem, 11(11), 1117. [10.1002/cmdc.201600182].@Yes$Banerjee, P., Eckert, A. O., Schrey, A. K., & Preissner, R. (2018).@ProTox-II: a web server for the prediction of toxicity of chemicals.@Nucleic acids research, 46(W1), W257-W263.@Yes$Roman, G., Manciulea, I., & Dumitrescu, L. (2004).@Synthesis of new 1-(2-benzimidazolyl)-2-propen-1-ones.@Indian Journal of Heterocyclic Chemistry, 13(3), 269-270.@Yes$S. Anuradha Bai. V. Aparna, A. Ravindernath and K. S. K. Rao Patnaik (2012).@Molecular properties Prediction, Synthesis and Docking studies of 3-benzimidazol -1-yl-1- (4- phenyl piperazine-1-yl) propan-1-one and their Derivatives.@Journal of Pharmacy and chemistry, 6(4), 33-40.@Yes$Pires, D. E., Blundell, T. L., & Ascher, D. B. (2015).@pkCSM: predicting small-molecule pharmacokinetic and toxicity properties using graph-based signatures.@Journal of medicinal chemistry, 58(9), 4066-4072.@Yes$Supandi, Y., & Merdekawati, F. (2018).@In silico study of pyrazolylaminoquinazoline toxicity by lazar, protox, and admet predictor.@Journal of Applied Pharmaceutical Science, 8(09), 119-129.@Yes$Isvoran, A. Aurel Ciorsac and V. Ostafe (2017).@ADME-Tox profiling of some low molecular weight water soluble chitosan derivatives.@ADMET & DMPK, 5(3), 192-200.@Yes$Raies A.B. and Bajic V.B. (2016).@In silico toxicology: computational methods for prediction of chemical toxicity.@Wiley Interdisciplinary Review Computational Molecular Sciences, 6, 147-172.@Yes$Bakht, M. A., Yar, M. S., Abdel-Hamid, S. G., Al Qasoumi, S. I., & Samad, A. (2010).@Molecular properties prediction, synthesis and antimicrobial activity of some newer oxadiazole derivatives.@European Journal of Medicinal Chemistry, 45(12), 5862-5869.@Yes <#LINE#>Preparation and characterization of cellulose hexanoate, octanoate and decanoate from sugarcane bagasse cellulose<#LINE#>Omar E.B. @Elnaeim,Yousif Ali @Ragab <#LINE#>10-14<#LINE#>2.ISCA-RJCS-2020-041.pdf<#LINE#>Department of Chemistry and Biology, Faculty of Education University of Al-Butana, Rufaa, Sudan@Department of Chemical Engineering and Chemical Technology, Faculty of Engineering and Technology, University of Gezira, Medani, Sudan<#LINE#>16/7/2020<#LINE#>29/11/2020<#LINE#>In recent years there is a growing urgency to develop renewable biodegradable materials for various applications, and to replace petroleum-based materials. This study aims to extract cellulose as raw material from Sudanese sugarcane bagasse (SCB) to prepare cellulose esters. The (SCB) sample was collected, grounded, dewaxed, delignified, purified and resolved in (DMA/LiCl) solvent system at 160°C. Then, cellulose esters were prepared by long chain acid chlorides namely hexanoyl (C6), octanoyl (C8), decanoyl (C10), in the presence of triethylamine for proton capture at optimum reaction condition. The produced cellulose esters were characterized using different instruments and methods. Elemental analysis was carried out to confirm the degree of substitution (DS). Fourier transfer Infra-Red spectroscopy (FT-IR) provide evidence of acylation by the presence of ester carbonyl groups and decrease of the band of the hydroxyl group. Thermo gravimetrical analyzer (TGA) showed that the prepared esters have different thermal stability depending on DS value and chain length at the substitution position. Solubility test shows different solubility of prepared cellulose esters depending, in addition to DS value, on the effect of the substituents on the hydrogen bonds. The study concluded that significant changes occur in the structure, thermal stability, and solubility of cellulose by esterification and the produced esters can be more useful than pure unmodified cellulose.<#LINE#>David, A. (2013).@Technical document on municipal solid waste organics processing.@Environment Canada= Environnement Canada.@Yes$Silva, A. J. P., Lahr, F. A. R., Christoforo, A. L., & Panzera, T. H. (2012).@Properties of sugar cane bagasse to use in OSB.@Int J Mater Eng, 2, 50-56.@Yes$Andrade Siqueira, T. C., Zanette da Silva, I., Rubio, A. J., Bergamasco, R., Gasparotto, F., Aparecida de Souza Paccola, E., & Ueda Yamaguchi, N. (2020).@Sugarcane bagasse as an efficient biosorbent for methylene blue removal: kinetics, isotherms and thermodynamics.@International journal of environmental research and public health, 17(2), 526.@Yes$Guilherme, A. A., Dantas, P. V. F., Santos, E. S., Fernandes, F. A., & Macedo, G. R. (2015).@Evaluation of composition, characterization and enzymatic hydrolysis of pretreated sugar cane bagasse.@Brazilian Journal of Chemical Engineering, 32(1), 23-33.@Yes$Moubarik, A., Grimi, N., & Boussetta, N. (2013).@Structural and thermal characterization of Moroccan sugar cane bagasse cellulose fibers and their applications as a reinforcing agent in low density polyethylene.@Composites Part B: Engineering, 52, 233-238.@Yes$Sun, J. X., Sun, X. F., Zhao, H., & Sun, R. C. (2004).@Isolation and characterization of cellulose from sugarcane bagasse.@Polymer degradation and stability, 84(2), 331-339.@Yes$Wirawan, R., Sapuan, S. M., Yunus, R., & Abdan, K. (2012).@Density and water absorption of sugarcane bagasse-filled poly (vinyl chloride) composites.@Polymers and Polymer Composites, 20(7), 659-664.@Yes$Jacobsen, S. E., & Wyman, C. E. (2002).@Xylose monomer and oligomer yields for uncatalyzed hydrolysis of sugarcane bagasse hemicellulose at varying solids concentration.@Industrial & engineering chemistry research, 41(6), 1454-1461.@Yes$Zhang, R. (2015).@Regioselective synthesis of curdlan derivatives.@Doctoral dissertation, Virginia Tech.@Yes$Wang, Y., Wang, X., Xie, Y., & Zhang, K. (2018).@Functional nanomaterials through esterification of cellulose: a review of chemistry and application.@Cellulose, 25(7), 3703-3731.@Yes$Hegner, J., Pereira, K. C., DeBoef, B., & Lucht, B. L. (2010).@Conversion of cellulose to glucose and levulinic acid via solid-supported acid catalysis.@Tetrahedron Letters, 51(17), 2356-2358.@Yes$Wang, P., & Tao, B. Y. (1995).@Synthesis of cellulose-fatty acid esters for use as biodegradable plastics.@Journal of environmental polymer degradation, 3(2), 115-119.@Yes$Willberg‐Keyriläinen, P., Rokkonen, T., Malm, T., Harlin, A., & Ropponen, J. (2020).@Melt spinnability of long chain cellulose esters.@Journal of Applied Polymer Science, 137(48), 49588.@Yes$Yuan, H., Nishiyama, Y., & Kuga, S. (2005).@Surface esterification of cellulose by vapor-phase treatment with trifluoroacetic anhydride.@Cellulose, 12(5), 543-549.@Yes$Lee, K. P., Arnot, T. C., & Mattia, D. (2011).@A review of reverse osmosis membrane materials for desalination-development to date and future potential.@Journal of Membrane Science, 370(1-2), 1-22.@Yes$Brant, A. J. C., Naime, N., Lugão, A. B., & Ponce, P. (2019).@Cellulose Nanoparticles Extracted from Sugarcane Bagasse and Their Use in Biodegradable Recipients for Improving Physical Properties and Water Barrier of the Latter.@Materials Sciences and Applications, 11(1), 81-133.@Yes$Sun, R. (2010).@Cereal straw as a resource for sustainable biomaterials and biofuels: chemistry, extractives, lignins, hemicelluloses and cellulose.@Elsevier.@Yes$Potthast, A., Rosenau, T., Buchner, R., Röder, T., Ebner, G., Bruglachner, H., ... & Kosma, P. (2002).@The cellulose solvent system N, N-dimethylacetamide/lithium chloride revisited: the effect of water on physicochemical properties and chemical stability.@Cellulose, 9(1), 41-53.@Yes$Sjoholm, E., Gustafsson, K., Eriksson, B., Brown, W., & Colmsjo, A. (2000).@Aggregation of cellulose in lithium chloride/N, N-dimethylacetamide.@Carbohydrate Polymers, 41(2), 153-161.@Yes <#LINE#>Influence of potassium hydrogen phthalate on thermal, mechanical, structural and surface properties of Chitosan/PVA blend films<#LINE#>Vinayak N. @Vanjeri,Naganagouda @Goudar,Vishram @Hiremani,Tilak @Gasti,Sarala P. @Sataraddi,Saraswati P. @Masti,Ravindra B. @Chougale <#LINE#>15-24<#LINE#>3.ISCA-RJCS-2020-042.pdf<#LINE#>P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India@P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India@P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India@P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India@P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India@Department of Chemistry, Karnatak Science College, Dharwad - 580 001, India@P G Department of Studies in Chemistry, Karnatak University, Dharwad - 580 003, India<#LINE#>13/8/2020<#LINE#>2/11/2020<#LINE#>The Potassium hydrogen phthalate (KHP) doped Chitosan/Polyvinyl alcohol (CPK) blended films were prepared by solution casting technique. The different instrumental methods were utilized to investigate the influence of KHP on Chitosan/Polyvinyl alcohol blended films. The interaction and miscibility of prepared blend films were confirmed by Infrared Spectroscopy and Differential Scanning Calorimetry (DSC) analysis. The CPK blend films showed higher thermal stability than the Chitosan/Polyvinyl alcohol (CP) blend film. The mechanical properties of the CP blend films were improved after the addition of KHP. Increased amorphous nature of CPK blend films was observed through the X-ray diffraction (XRD) patterns. The surface roughness was analyzed by Atomic Force Microscopy (AFM) suggest that the KHP exists in the films owing to strong interactions. The hydrophobic nature of the CP blend was enhanced after the addition of KHP, which is verified by measuring the water contact angles. These investigated properties fitted with the properties which are applicable for the packaging and coating applications.<#LINE#>Zhu, G., Wang, F., Gao, Q., & Liu, Y. (2013).@Modification of hydrophobic polypeptide-based film by blending with hydrophilic poly (acrylic acid).@Polímeros, 23(1), 24-28.@Yes$Xiao, C., Lu, Y., Jing, Z., & Zhang, L. (2002).@Study on physical properties of blend films from gelatin and polyacrylamide solutions.@Journal of applied polymer science, 83(5), 949-955.@Yes$Wróblewska-Krepsztul, J., Rydzkowski, T., Borowski, G., Szczypiński, M., Klepka, T., & Thakur, V. K. (2018).@Recent progress in biodegradable polymers and nanocomposite-based packaging materials for sustainable environment.@International Journal of Polymer Analysis and Characterization, 23(4), 383-395.@Yes$Gupta, K. C., & Jabrail, F. H. (2006).@Glutaraldehyde and glyoxal cross-linked chitosan microspheres for controlled delivery of centchroman.@Carbohydrate research, 341(6), 744-756.@Yes$Rao M. S., Kanatt S. R. and Chawla S. P. (2010).@Chitosan and guar gum composite films: Preparation, physical, mechanical and antimicrobial properties.@Carbohydrate Polymers, 82, 1243-1247.@Yes$Chen, C. H., Wang, F. Y., Mao, C. F., Liao, W. T., & Hsieh, C. D. (2008).@Studies of chitosan: II. Preparation and characterization of chitosan/poly (vinyl alcohol)/gelatin ternary blend films.@International Journal of Biological Macromolecules, 43(1), 37-42.@Yes$Chao-Ming S., Yeong-Tarng S. and Yawo-Kuo T. (2009).@Preparation and characterization of cellulose/chitosan blend films.@Carbohydrate Polymers, 78, 169-174.@No$Wu, J., Zhong, F., Li, Y., Shoemaker, C. F., & Xia, W. (2013).@Preparation and characterization of pullulan-chitosan and pullulan-carboxymethyl chitosan blended films.@Food Hydrocolloids, 30(1), 82-91.@Yes$Rinaudc, M., Pavlov, G., & Desbrieres, J. (1999).@Solubilization of chitosan in strong acid medium.@International Journal of Polymer Analysis and Characterization, 5(3), 267-276.@Yes$Kweon, H., Ha, H. C., Um, I. C., & Park, Y. H. (2001).@Physical properties of silk fibroin/chitosan blend films.@Journal of applied polymer science, 80(7), 928-934.@Yes$Kubo, S., & Kadla, J. F. (2003).@The formation of strong intermolecular interactions in immiscible blends of poly (vinyl alcohol)(PVA) and lignin.@Biomacromolecules, 4(3), 561-567.@Yes$Tsukada, M., Freddi, G., & Crighton, J. S. (1994).@Structure and compatibility of poly (vinyl alcohol)‐silk fibroin (PVA/SA) blend films.@Journal of Polymer Science Part B: Polymer Physics, 32(2), 243-248.@Yes$Lee, Y. M., Nam, S. Y., & Kim, J. H. (1992).@Pervaporation of water-ethanol through poly (vinyl alcohol)/chitosan blend membrane.@Polymer Bulletin, 29(3), 423-429.@Yes$Silva, F. E., Leal, M. C. B. D. M., Batista, K. D. A., & Fernandes, K. F. (2013).@PVA/polysaccharides blended films: mechanical properties.@@Yes$He, Z., & Xiong, L. (2012).@Evaluation of physical and biological properties of polyvinyl alcohol/chitosan blend films.@Journal of Macromolecular Science, Part B, 51(9), 1705-1714.@Yes$Chiellini, E., Cinelli, P., Imam, S. H., & Mao, L. (2001).@Composite films based on biorelated agro-industrial waste and poly (vinyl alcohol). Preparation and mechanical properties characterization.@Biomacromolecules, 2(3), 1029-1037.@Yes$Mohamed, M. B., & Abdel-Kader, M. H. (2020).@Effect of annealed ZnS nanoparticles on the structural and optical properties of PVA polymer nanocomposite.@Materials Chemistry and Physics, 241, 122285.@Yes$Parida, U. K., Nayak, A. K., Binhani, B. K., & Nayak, P. L. (2011).@Synthesis and characterization of chitosan-polyvinyl alcohol blended with cloisite 30B for controlled release of the anticancer drug curcumin.@Journal of Biomaterials and Nanobiotechnology, 2(04), 414-425.@Yes$Tellamekala S., Pravakar O., Neeruganti O. G., Velikanti R. K. and Chekuri R. (2018).@Structural, Optical and Thermal Characterizations of PVA/MAA:EA Polyblend Films.@Materials Research., 21(5).@Yes$Yumiko N., Yuezhen B., Mami B., Teruo N., Tsumuko O., Hiromichi K. and Masaru M. (2007).@Structure and Mechanical Properties of Chitosan/Poly(Vinyl Alcohol) Blend Films.@Macromol. Symp., 25, 63-81.@Yes$Orel B., Hadzi D. and Cabassi F. (1975).@Infrared and Raman spectra of potassium hydrogen phthalate.@Spectroehimica Acta, 81A, 169-182.@Yes$Punitha P., Senthilkumar S. and Parthiban S. (2015).@Influence of Cd(II) doping on the properties of potassium hydrogen phthalate (KHP) crystals.@Int. J. Chem Tech Res., 7, 3171-3180.@Yes$Mostak H., Shahanara B. and Jiban P. (2013).@Growth, structural, thermal and optical properties of Mg2+-Co2+ doped potassium acid phthalate crystals.@Journal of Bangladesh Academy of Sciences, 37, 165-172.@Yes$Hafez R. S. & El-Khiyami S. (2020).@Effect of copper (II) nitrate 3H2O on the crystalline, optical and electrical properties of poly (vinyl alcohol) films.@Journal of Polymer Research, 27(26).@Yes$M. Enculescu. (2010). Morphological and optical properties of doped potassium hydrogen phthalate crystals. Physica B., 405(17), 3722-3727.@undefined@undefined@Yes$Parul S., Garima M., Navendu G., Sanjeev K. S., Sanjay R. D., Subhash C. and Ashwani M. (2015).@Evaluating the potential of chitosan/poly(vinyl alcohol) membranes as alternative carrier material for proliferation of Vero cells.@e-Polymers, 15(4), 237-243.@Yes$Carlos A. G., Gonzalo V., Miguel C. G., Esmeralda R., Javier C. and Rocio Y. A. (2020).@Effect of polyvinyl alcohol on the physicochemical properties of biodegradable starch films.@Materials Chemistry and Physics, 239, 122027.@Yes$Godbole S., Gote S., Latkar M. and Chakrabarti T. (2003).@Preparation and characterization of biodegradable poly-3-hydroxybutyrate-starch blend films.@Bioresource Technology, 86(1), 33-37.@Yes$Shek Dhavud S. and Thomas Joseph Prakash J. (2017).@Influence of amino acid dopants on the growth and properties of potassium hydrogen phthalate single crystals for nonlinear optical applications.@Int. J. Adv. Res., 5(2), 886-897.@No$Suyatma, N. E., Copinet, A., Tighzert, L., & Coma, V. (2004).@Mechanical and barrier properties of biodegradable films made from chitosan and poly (lactic acid) blends.@Journal of Polymers and the Environment, 12(1), 1-6.@Yes$El Miri, N., Abdelouahdi, K., Zahouily, M., Fihri, A., Barakat, A., Solhy, A., & El Achaby, M. (2015).@Bio‐nanocomposite films based on cellulose nanocrystals filled polyvinyl alcohol/chitosan polymer blend.@Journal of Applied Polymer Science, 132(22).@Yes$Kailong J. and John M. T. (2015).@Tg and Tg breadth of poly (2,6-dimethyl-1,4-phenylene oxide)/polystyrene miscible polymer blends characterized by differential scanning calorimetry, ellipsometry, and fluorescence spectroscopy.@Polymer, 65, 233-242.@Yes$Manisara P., Ratana R. and Pitt S. (2003).@Characterisation of beta-chitin/poly(vinyl alcohol) blend films.@Polymer Testing, 22(4), 381-387.@Yes$Martínez-Camacho A. P., Cortez-Rocha M. O., Ezquerra-Brauer J. M., Graciano-Verdugo A. Z., Rodriguez-Felix F., Castillo-Ortega M. M., Yepiz-Gómez M. S. and Plascencia-Jatomea M. (2010).@Chitosan composite films: Thermal, structural, mechanical and antifungal properties.@Carbohydrate Polymers, 82(2), 305-315.@Yes$Kaya, M., Khadem, S., Cakmak, Y. S., Mujtaba, M., Ilk, S., Akyuz, L., ... & Deligoz, E. (2018).@Antioxidative and antimicrobial edible chitosan films blended with stem, leaf and seed extracts of Pistacia terebinthus for active food packaging.@RSC advances, 8(8), 3941-3950.@Yes <#LINE#>Quality assessment of water supply at Nsukka town in Enugu State, Nigeria<#LINE#>Nnamani Johnson @Onuorah,I.G @Agbidye <#LINE#>25-29<#LINE#>4.ISCA-RJCS-2020-044.pdf<#LINE#>Department of Chemistry, Benue State University, Makurdi, Benue State, Nigeria@Department of Chemistry, Benue State University, Makurdi, Benue State, Nigeria<#LINE#>24/8/2020<#LINE#>28/11/2020<#LINE#>The different freshwater sample collections took place at different locations of water supply at Nsukka town (New University road, Ugwuoye and Isiakpu). The samples were analytically assessed for their physio-chemical and bacteriological characteristics. The nature of work carried out involved samples collection preparation and analysis of the sample. Results obtained from various analyses were compared to standards set by the WHO and NAFDAC. It was inferred that the physical parameters fell within the standards except for colour which was high in borehole. The general results showed that the sources are not chemically polluted since the concentration of inorganic parameters are not higher than the WHO and NAFDAC drinking water standards. The analytical results also showed bacteriological contamination of well water, this means ensuring proper treatment before consumption. This implies that the E.coli that has polluted the well water might have come from sewage waste, livestock or agricultural waste. In a nut shell, the analytical result showed a pH of 6.6 for well water, 6.8 for borehole and 7.2 for tap water. E.coli was found to be absent in both tap water and borehole but detected in well water.<#LINE#>Nsi, E.W. (2007).@Basic Environmental Chemistry.@1st Edition, the Return Press Ltd. Makurdi, Nigeria. pp. 87-150 ISBN: 978-075-510-1@No$Adesiyum A.A, and Adekeye, J. (1999).@Studies on Borehole water and possible Risks in Kaduna, Nigeria.@Journal of hygiene, 96(1), 149-160.@No$World Health Organization (2004).@International Standard for drinking water.@WHO Library Cataloguing-in. Publication Data, Vol. 1, 3rd Edition.@Yes$Mishra, A. and Bhart, V. (2007).@Physicochemical and microbiological Analysis of underground water in some Districts in India.@E. Journal of Chemistry, 5(3), 487-492.@No$Nsi, E.W. and Ogori. B.O. (2005).@A Survey of water Quality in some Areas of Makurdi.@International Journal of Science and Technology, 1(4), 7-11.@Yes$Kolo B., Dibal J.M. and Ndakawa I.I. (2009).@Elemental analysis of tap and borehole waters in Maiduguri, semi-arid region, Nigeria.@European Journal of Applied Sciences, 1(2), 26-29.@Yes$Lehloesa, L. and Muyima, N.Y. (2002).@Evaluation of Impact of Household Treatment procedures in The Quality of Ground Water Supply in Rural Community of Victoria District in the Eastern Cape of South Africa.@South Africa water Research, 26(2), 285-290.@Yes$Verlicchi P. and Grillini V. (2020).@Surface Water and Groundwater Quality in South Africa and Mozambique—Analysis of the Most Critical Pollutants for Drinking Purposes and Challenges in Water Treatment Selection.@Water, 12(1), 305.@Yes$Wolf, A. T. (2001).@Water and human security.@Journal of Contemporary Water Research and Education, 118(1), 5.@Yes$Onwuka, K.O, Urna, K.O and Ezeigbo, H.I. (2004).@Possibility of shadow Groundwater in Enugu Town.@Nigeria Global Journal of Environmental Sciences, 182 (3), 33-39.@Yes$National Agency for Food and Drugs Administration and Control (2004).@Training workshop for packaged water and fruit juice products.@IKEJA, 10-11.@No$Itah, A.Y. and Akpan, C.E. (2005).@Portability of Drinking water in an oil impacted community in Southern Nigeria.@Journal of Applied Science and Environmental Management, 9(1), 35-74.@Yes$World Health Organization (2006).@Guidelines for Drinking Quality Water (1) Geneva.@Abdenum to the 3rd value Recommendations.@No$Ademoroti C.M.A. (1996).@Standard methods for water and Effluents Analysis.@Ist Edition, Foludex Ltd., Ibadan, Nigeria, pp 44- 50. ISBN- 978-33399-9-1@Yes$Njobuenwu, D.O. Amadi S.A. and Dagde. K.K (2005).@Marine Oil Spill: Contingency Planning, Response and Clean up Strategies.@International Journal of Science and Technology, 1(4), 36-40.@Yes$Shallsuku P. Nsi. E. W. (2001).@Formation of Chlorohydroxyl Furanones in Public water Supplies and their Implications in Nigeria.@Nigeria Journal of pure and applied Sciences, 1(1), 34-40.@No$National Water Rehabilitation Project (2020).@National Water Resource Institute, Kaduna, Nigeria.@pp 4-11@No$Awoyemi, O.A., Achudume, A.C. and Okoya, A.A. (2014).@The physicochemical Quality of Groundwater in Relation to surface water pollution at Majidun Area of Ikorodu, Lagos state, Nigeria.@America Journal of water resources, 2(5), 126-133. https://doi.org/ 10.12691/ajwr-2-5-4.@Yes$Bashir, H. and Kawo, A.H. (2004).@Environmental pollution-A case study of wastewater effluent parameters of some Industries in Kano, Nigeria.@Biological and Environmental Sciences Journal for the Tropics, 1(1), 1-6.@Yes <#LINE#>Metallic contamination of medicinal plants as consequences of soil pollution<#LINE#>CHODATON-ZINSOU Marthe @Dominique,ASSOGBA @Arnaud,KOUAZOUNDE @Jacques,ASSOGBA M. @Fidèle,GBAGUIDI @Fernand,GBENOU @Joachim,MAMA @Daouda <#LINE#>30-33<#LINE#>5.ISCA-RJCS-2020-047.pdf<#LINE#>Laboratoire de pharmacognosie et des huiles essentielles, Faculte des Sciences et Techniques, Universite d’Abomey-Calavi, BENIN@Laboratoire de surveillance environnemental de la Direction Generale de l’Environnementet du Climat du Ministère de Cadre de Vie et du Developpement Durable, BENIN@Laboratoire de Chimie inorganique et Environnement (LaCIE), Faculte des Sciences et Techniques, Universite d’Abomey-Calavi, BENIN@Laboratoire de pharmacognosie et des huiles essentielles, Faculte des Sciences et Techniques, Universite d’Abomey-Calavi, BENIN@Laboratoire de pharmacognosie et des huiles essentielles, Faculte des Sciences et Techniques, Universite d’Abomey-Calavi, BENIN@Laboratoire de pharmacognosie et des huiles essentielles, Faculte des Sciences et Techniques, Universite d’Abomey-Calavi, BENIN@Laboratoire d’Hydrologie Appliquee, Institut National de l’Eau, Universite d’Abomey-Calavi, BENIN<#LINE#>28/8/2020<#LINE#>22/10/2020<#LINE#>Medicinal plants used by populations are harvested in the environment subjected to contamination by pollutants including heavy metals, toxic to humans. The objective of this research is to assess contamination of 5 medicinal plants commonly used in Benin by mercury and growing sometimes in areas at risk of mercuric contamination. Material plant studied included Croton lobatus, Hemizygia bracteosa, Desmodium velutinum leaves and Cissampelos owariensis and Calyptrochilum christyanum aerial parts. These plants, as well as soils on which they are established, were collected, respectively in Abomey-Calavi, Savalou, Abomey for the 3 first plants and Avrankou for the 2 last. Direct Mercury Analyser (DMA 80 TRICELL) was used to quantify mercury in dry plant powders and dried soil grains. The results obtained reveal mercury’s presence in all plants and soils samples. Mercury concentration varies between 18.36 and 133.54µg/kg in soils and between 20.45 and 89.13µg/kg in leaves. Soil concentrations are below threshold value of 1mg/kg. Plants have been shown to accumulate mercury, or even very accumulative for Croton lobatus and Desmodium velutium. This study shows that harvesting medicinal plants on soils contaminated by heavy metal is a risk for human health.<#LINE#>Bourrelier P. H. and Berthelin J. (1998).@Contamination des sols par les elements en traces: les risques et leur gestion.@Rapport N°42 à l’Academie des sciences, Paris France, Lavoisier Tec & Doc, 440p.@Yes$Sirven J. B. (2006).@Detection de metaux lourds dans les sols par spectroscopie d’emission sur plasma induit par Laser (LIBS).@Thèse de doctorat, Universite de Bordeaux 1, France, 253 p.@Yes$Salvarredy Aranguren M. M. (2008).@Contamination en metaux lourds des eaux de surface et des sediments du Val de Milluni (Andes Boliviennes) par des dechets miniers.@Approches geochimique, mineralogique et hydrochimique. Thèse de doctorat, Universite de Toulouse, France, 490p.@Yes$Ramade F. (2005).@Element d’ecologie, ecologie applique.@6th edition Dunod, Paris.@Yes$Huynh T. M. D. (2009).@Impact des metaux lourds sur l’intercation plante/ver de terre/microflore tellurique.@These de doctorat, Universite de Paris Est, 170p.@Yes$Bensefa-Colas L., Andujar P. and Descatha A. (2011). Intoxication par le mercure.@La Revue de medecine interne, 32 (7), 416-424.@undefined@Yes$Lauwerys R., Haufroid V., Hoet P. and Lison D. (2007).@Mercure. In Toxicologie industrielle et intoxication professionnelle.@Paris, Elsevier Masson, 309-363.@Yes$Poupon J. (2007).@L’exposition au mercure en 2007.@toxicite et prise en charge, Revue Francophone des Laboratoires, 390, 1-6.@Yes$Lui L., Goyer R. A. and Waalkes M. P. (2008).@Toxic effets of metals.@In Casarrett L. J. and Doull J. Casarett and Doulltoxicology : the base sciences of poisons, p 931-979. New York, The McGraw-Hill Companies.@No$Garnier R. (2000).@Mercure. In Bismuth C. Toxicologie clinique.@5e Ed. Medecine Science, Flammarion, Paris 614-623.@No$WHO (2002).@Strategie de l’OMS pour la medicine traditionnelle pour 2002-2005.@Genève, 65p.@No$Barst B. (2015).@Speciation hepatique et distribution tissulaire et sub-cellulaire du mercure: effet de la toxicite chez les poisons.@Thèse de doctorat, Universite de Quebec, 194 p.@Yes$Baize D. and Paquereau H. (1997).@Teneurs totales en elements traces dans les sols agricoles de de Seine-Et-Marne.@Et. Gest. Sols, 2(7), 77-94 p.@Yes$Nocholson F. Sith S. Alloway B., Calton S. and Chambers B. (2003).@An inventory of heavy metals input to agricultural soils in England and Wales.@Sci. Ttot. Environ, 311(1-3), 205-219.@Yes$INERIS-DRC-10-109974-00926A (2010).@Fiche de donnees toxicologiques et environnementales des substances chimiques.@version N°4 septembre 2010.@No$Mench M., Lepp N., Bert V., Schwitzguebel JP., Schroder P, Gawronski SW, Schroeder P. and Vangronsveld J., (2010).@Success and limitations of phytotechnologies and fieldscale : outcomes, assessment and outlookfrom COST Action 859.@J. Soil Sediment, 10(6), 1039-1070.@Yes$Messou A., Coulibaly L., Doumbia L. and Gourene G. (2013).@Plants diversity and phytoaccumulators identification on the Akouedolandfill (Abidjan, Côte d’Ivoire).@Afr. J. Biotechnol., 12(3), 253-264.@Yes$Tankari Dan Badjo A., Guero Y., Dan Lamso N. and Moussa Taweye O. (2012).@Risque d’exposition des populations de Niamey (Niger) aux metaux lourds à travers la consommation des produits maraichers.@Rev. Bioressources, 2, 88-99.@No <#LINE#>Phytochemical analysis of few selected medicinal plants used for the treatment of diabetes in Assam, India<#LINE#>Biswajit @Sarma <#LINE#>34-41<#LINE#>6.ISCA-RJCS-2020-058.pdf<#LINE#>Department of Chemistry, Royal School of Applied and Pure Sciences, Royal Global University, Guwahati-781035, Assam, India<#LINE#>12/10/2020<#LINE#>8/2/2021<#LINE#>Diabetes mellitus has been found to be managed and controlled by various herbal plant extracts. Different herbal products are used as antidiabetic supplements. Various phytochemicals belonging to different classes like flavonoids, alkaloids, phenolic compounds, steroids, tannins, coumarins, terpenoids, etc. have demonstrated bioactivity against high blood glucose level in diabetic patients. Phytochemicals are actually naturally synthesized secondary plant metabolites. In the present study phytochemical screening and Fourier Transform Infrared Spectroscopy (FT-IR) analysis of different parts of some selected antidiabetic medicinal plants was carried out for characterization of the crude extract and detection of functional groups in these plant parts. The FT-IR spectroscopic analysis has shown the presence of various important functional groups. The results of phytochemical screening have confirmed the presence of various secondary plant metabolites viz., steroids, alkaloids, glycosides, flavonoids, terpenoids, carotenoids, tannins and phenolic compounds in the studied plant parts. Hence, the present study gives a strong support and offers a base of using these plant species as herbal alternative for the diabetic patients.<#LINE#>Somara S. and Malepati D.N. (2019).@Evaluation of protective effect of Centellaasiaticaleaves on pancreas function in diabetic rats.@International Journal of Herbal Medicine, 7(1), 55-60.@Yes$Kesari S., Santosh K.S., Rajesh K.G. and Geeta W. (2007).@Studies on the glycemic andlipidemic effect of Murrayakoenigii in experimental animals.@Journal of Ethnopharmacol, 112(2), 305-11.@Yes$Ahmed I., Adeghate E., Sharma A.K. and Pallot D.J. (2018).@Effects of Momordicacharantia fruit juice on islet morphology in the pancreas of the streptozotocin-diabetic rat.@Diabetes Research and Clinical Practice, 40(3), 145-151.@Yes$Patience O., Estella U. and Philip F. (2014).@Natural products as potential sources of antidiabetic drugs.@British Journal of Pharmaceutical Research, 4(17), 2075-2095.@Yes$Panal S. (2015).@Characterization Simplisia and Ethanolic Extract of Pirdot (SaurauiaVulcani, Korth) Leaves and Study of Antidiabetic Effect in Alloxan Induced Diabetic Mice.@International Journal of Chem Tech Research, 8(6), 784-794.@Yes$Kadali V. N., Pola S.R., Ramesh T. and Sandeep B. V. (2016).@Anti-diabetic plants present in West Godavari district of Andhra Pradesh India- A short review.@International Journal of Pharma Sciences and Research, 7(2), 72-76.@Yes$Nwonu C., Ilesanmi O., Agbedahunsi J. and Nwonu P. (2019).@Natural products as veritable source of noveldrugs and medicines: A review.@International Journal of Herbal Medicine, 7(1), 50-54.@Yes$Deore A.B., Sapakal V.D. and Naikwade N.S. (2011).@Antioxidant and hepatoprotective activity of Garcinia indica fruit.@International Journal of Comprehensive Pharmacy, 2(6), 8-17.@Yes$Sarma P.C. (2011).@Ethno antidiabetic plants of Assam.@International Journal of Applied Biology and Pharmaceutical Technology, 2(4), 246-251.@Yes$Kumar S. and Kumar C. (2012).@Phytoconstituents and pharmacological activities of Musa paradisiaca Linn.@Asian Journal of Biochemical and Pharmaceutical Research, 4(2), 199-206.@Yes$Banik G., Bawari M., Choudhury M.D. and Choudhury S. (2010).@Some anti-diabetic plants of Southern Assam.@Journal of Science & Technology, Biological and Environmental Sciences, 5(1), 114-119.@Yes$Jhajhria A. and Kumar K. (2016).@Tremendous pharmacological values of Aegle marmelos.@International Journal of Pharmaceutical Sciences Review and Research, 36(2), 121-127.@Yes$Patil M. B. (2016).@Anti-diabetic activity of some medicinal plants.@Indian Journal of Applied Research, 6(1), 241-242.@No$Horborne J.B. (1988).@Phytochemical methods.@Third Edition, Chapman and Hall, London, 117.@No$Sofowora A. (1993).@Medicinal plants and traditional medicine in Africa.@2nd edn, Spectrum Book Ltd, Ibadan, Nigeria.@Yes$Trease G.E. and Evans W.C. (1989).@Pharmacognosy.@13th edn, Bailliere Tindall, London.@Yes$Devi S., Kumar D. and Kumar M. (2016).@Ethnobotanical values of antidiabetic plants of M.P. region, India.@Journal of Medicinal Plants Studies, 4(3), 26-28.@Yes$Maries R.J. and Farnsworth N.R. (1995).@Antidiabetic plants and their active constituents.@Phytomedicine, 2(1), 137-189.@Yes$Alan L. and Miller N.D. (1996).@Antioxidant Flavonoids: structure, function and clinical usage.@Alt. Med. Rev., 1(2), 103-111.@Yes$Essiett U.A., Bala D.N. and Agbakali J.A. (2010).@Pharmacognostic studies of the leaves and stem of Diodiascandens SW in Nigeria.@Archives of Applied Science Research, 2(5), 184-198.@Yes$Kasali F.M., Wendo F.M., Muyisa S.K., Ntokamunda Kadima J. (2016).@Comparative hypoglycemic activity of flavonoids and tannins fractions of Stachytarpheta indica (L.) Vahl leaves extracts in Guinea-Pig and Rabbits.@International Journal of Pharmacy and Pharmaceutical Research, 5(2), 48-57.@Yes$Bhushan M. S., Rao C. H. V., Ojha S. K., Vijayakumar M. and Verma A. (2010).@An analytical review of plants for antidiabetic activity with their phytoconstituent& mechanism of action.@International Journal of Pharmaceutical Sciences and Research, 1(1), 29-46.@Yes @Review Paper <#LINE#>Biological activities of benzimidazole derivatives: A review<#LINE#>P.M. @Jadhav <#LINE#>42-48<#LINE#>7.ISCA-RJCS-2020-014.pdf<#LINE#>Department of Chemistry, Shri Muktanand College, Gangapur, Aurangabad, MS, India<#LINE#>17/3/2020<#LINE#>4/9/2020<#LINE#>The benzimidazole derivatives is an important drug in a therapeutics application of medicine, having varieties of biological activities including antihistamine, analgesics, antifungal, antiviral, antitumor, antiparasitic and use in endocrinology, cardiovascular disease, neurology and their synthesis is privileged scaffold. The literature reviews indicate that the substituted benzimidazole derivatives showed more potent biological activity. The benzimidazole derivatives are summarized in this review to know about pharmacological activities as well as chemistry.<#LINE#>Gurusamy Mariappan, RajibHarika, FarukAlam, Rashmi Karki, Uddhav Patangia and Shamalendu Nath (2015).@Synthesis and biological evalution of 2-substituted benzimidazole derivatives.@Arabian Journal of Chemistry, 8, 715-719.@No$Nerella Sridhar Gouda, S. Mahammad Ghousea, Jatoth Vishnub, D. Komala, Venu Tallab, Ravi Alvalac, Jakkula Pranayd, Janish Kumard, Insaf A. Qureshid and Mallika Alvala (2019).@Synthesis of 1-benzyl-1H-benzimidazoles as galectin-1 mediated anticancer Agents.@Bioorganic Chemistry, 89, 103016.@No$Kumaraswamy Gullapelli, G. Brahmeshwari, M. Ravichander and Uma Kusuma (2017).@Synthesis, antibacterial and molecular docking studies of new benzimidazole derivatives.@Egyptian Journal of Basic and Applied Sciences, 4, 303-309.@Yes$Yadav, S., Lim, S. M., Ramasamy, K., Vasudevan, M., Shah, S. A. A., Mathur, A., & Narasimhan, B. (2018).@Synthesis and evaluation of antimicrobial, antitubercular and anticancer activities of 2-(1-benzoyl-1 H-benzo [d] imidazol-2-ylthio)-N-substituted acetamides.@Chemistry Central Journal, 12(1), 1-14.@Yes$Sujit Kumar Mohantya, Anuradha Khuntiaa, N. Yellasubbaiaha, C. Ayyannab, B. Naga Sudhaa, M. Sai Harikaa Sujit Kumar Mohantya, Anuradha Khuntiaa, N. Yellasubbaiaha, C. Ayyannab, B. Naga Sudhaa and M. Sai Harikaa (2018).@Design, synthesis of novel azo derivatives of benzimidazole as potent antibacterial and anti-tubercular agents.@Beni-Suef University Journal of Basic and Applied Sciences, xx.@No$Muhammad Taha, Ashik Mosaddik, Fazal Rahim, Sajjad Ali, Mohamed Ibrahim and Noor Barak Almandil (2018).@Synthesis, antiglycation and antioxidant potentials of benzimidazole derivatives.@Journal of King Saud University-Science, xx.@No$Eissa, A. G., Blaxland, J. A., Williams, R. O., Metwally, K. A., Sobhy, M., Lashine, E. S. M., ... & Simons, C. (2016).@Adenine and benzimidazole-based mimics of REP-3123 as antibacterial agents against Clostridium difficile and Bacillus anthracis: Design, synthesis and biological evaluation.@Bulletin of Faculty of Pharmacy, Cairo University, 54(2), 197-207.@Yes$Zhang, D., Wang, Z., Xu, W., Sun, F., Tang, L., & Wang, J. (2009).@Design, synthesis and antibacterial activity of novel actinonin derivatives containing benzimidazole heterocycles.@European journal of medicinal chemistry, 44(5), 2202-2210.@Yes$Janaki, P., Sekar, K. G., & Thirunarayanan, G. (2016).@Synthesis, spectral correlation and insect antifeedant activities of some 2-benzimidazole chalcones.@Journal of Saudi Chemical Society, 20(1), 58-68.@Yes$Padalkar, V. S., Gupta, V. D., Phatangare, K. R., Patil, V. S., Umape, P. G., & Sekar, N. (2014).@Synthesis of novel dipodal-benzimidazole, benzoxazole and benzothiazole from cyanuric chloride: Structural, photophysical and antimicrobial studies.@Journal of Saudi Chemical Society, 18(3), 262-268.@Yes$Kuldipsinh P. Barot, Kuntal S. Manna and Manjunath D. Ghate (2017).@Design, synthesis and antimicrobial activities of some novel 1,3,4-thiadiazole, 1,2,4-triazole-5-thione and 1,3-thiazolan-4-one derivatives of Benzimidazole.@Journal of Saudi Chemical Society, 21, S35-S43.@No$Aruna Sindhe M., Yadav D. Bodke, Kenchappa R., Sandeep Telkar, Chandrashekar A. and Vinoda B.M. (2016).@Catalytic assemble of 2-amino-5,6-dimethyl-1H-benzimidazole with carboxylic acids and evaluation of their antimicrobial and antioxidant activities.@Journal of Taibah University Medical Sciences, 11(5), 418-426.@No$Sharma, M. C. (2016).@QSAR studies of novel 1-(4-methoxyphenethyl)-1H-benzimidazole-5-carboxylic acid derivatives and their precursors as antileukaemic agents.@Journal of Taibah University for Science, 10(1), 122-130.@Yes$Shaharyar, M., Mazumder, A., Garg, R., & Pandey, R. D. (2016).@Synthesis, characterization and pharmacological screening of novel benzimidazole derivatives.@Arabian Journal of Chemistry, 9, S342-S347.@Yes$Vikas S. Padalkar, Bhushan N. Borse, Vinod D. Gupta, Kiran R. Phatangare, Vikas S. Patil, Prashant G. Umape and N. Sekar (2016).@Synthesis and antimicrobial activity of novel 2-substituted benzimidazole, benzoxazole and benzothiazole derivatives.@Arabian Journal of Chemistry, 9, S1125-S1130.@No$Shaharyar, M., Mazumder, A. & Abdullah, M. M. (2017).@Synthesis, characterization and antimicrobial activity of 1, 3, 4-oxadiazole bearing 1H-benzimidazole derivatives.@Arabian Journal of Chemistry, 10, S503-S508.@Yes$Rani S. Kankate, Parag S. Gide and Deepak P. Belsare (2015).@Design, synthesis and antifungal evaluation of novel benzimidazole tertiary amine type of fluconazole analogues.@Arabian Journal of Chemistry, xx.@No$Rashid, M., Husain, A., Mishra, R., Karim, S., Khan, S., Ahmad, M., ... & Khan, S. A. (2019).@Design and synthesis of benzimidazoles containing substituted oxadiazole, thiadiazole and triazolo-thiadiazines as a source of new anticancer agents.@Arabian Journal of Chemistry, 12(8), 3202-3224.@Yes$Neda O. Anastassova, AneliaTs. Mavrova, Denitsa Y. Yancheva, Magdalena S. Kondeva-Burdina, Virginia I. Tzankova, Simeon S. Stoyanov, Boris L. Shivachev, Rositsa P. Nikolova (2018).@Hepatotoxicity and antioxidant activity of some new N,N0-disubstituted benzimidazole-2-thiones, radical scavenging mechanism and structure activity relationship.@Arabian Journal of Chemistry, 11, 353-369.@No$P.V. Sri Ramya, Srinivas Angapelly, Routhu Sunitha Rani, Chander Singh Digwal, C. Ganesh Kumar, Bathini Nagendra Babu, Lalita Guntuku, Ahmed Kamal (2017).@Hypervalentiodine (III) catalyzed rapid and efficient access to benzimidazoles, benzothiazoles and quinoxalines: Biological evaluation of some new benzimidazole-imidazo[1,2-a]pyridine conjugates.@Arabian Journal of Chemistry, xx.@No$Olayinka O. Ajani, Olayinka O. Tolu-Bolaji, Shade J. Olorunshola, Yuxia Zhao and Damilola V. Aderohunmu (2017). Structure-based design of functionalized 2-substituted and 1,2- disubstitutedbenzimidazole derivatives and their in vitro antibacterial efficacy.@Journal of Advanced Research, 8, 703-712.@undefined@No$Arora, R. K., Kaur, N., Bansal, Y., & Bansal, G. (2014).@Novel coumarin-benzimidazole derivatives as antioxidants and safer anti-inflammatory agents.@Acta Pharmaceutica Sinica B, 4(5), 368-375.@Yes$Kavitha C.S. Achar, Kallappa M. Hosamani, Harisha R. Seetharamareddy (2010).@In-vivo analgesic and anti-inflammatory activities of newly synthesized benzimidazole derivatives.@European Journal of Medicinal Chemistry, 45, 2048-2054.@No$K.F. Ansari, C. Lal (2009).@Synthesis, physicochemical properties and antimicrobial activity of some new benzimidazole derivatives.@European Journal of Medicinal Chemistry, 44, 4028-4033.@Yes$Garudachari, B., Satyanarayana, M. N., Thippeswamy, B., Shivakumar, C. K., Shivananda, K. N., Hegde, G., & Isloor, A. M. (2012).@Synthesis, characterization and antimicrobial studies of some new quinoline incorporated benzimidazole derivatives.@European journal of medicinal chemistry, 54, 900-906.@Yes$He, Y., Yang, J., Wu, B., Risen, L., & Swayze, E. E. (2004).@Synthesis and biological evaluations of novel benzimidazoles as potential antibacterial agents.@Bioorganic & medicinal chemistry letters, 14(5), 1217-1220.@Yes$Ramprasad, J., Nayak, N., Dalimba, U., Yogeeswari, P., Sriram, D., Peethambar, S. K., ... & Kumar, H. S. (2015).@Synthesis and biological evaluation of new imidazo [2, 1-b][1, 3, 4] thiadiazole-benzimidazole derivatives.@European journal of medicinal chemistry, 95, 49-63.@Yes <#LINE#>Green corrosion inhibitors for aluminium and it’s alloy: An overview<#LINE#>Neha I. @Prajapati,Rajendra T. @Vashi <#LINE#>49-74<#LINE#>8.ISCA-RJCS-2020-049.pdf<#LINE#>Department of Chemistry, C.B. Patel Computer College & J.N.M. Patel Science College, Surat, India@Chemistry Department, Navyug Science College, Surat-395009, India<#LINE#>7/9/2020<#LINE#>4/12/2020<#LINE#>Corrosion is anatural process, unavoidable but it’s a controllable. Corrosion inhibitors are extensively used for the protection of metals and equipment and they are required to be acceptable and eco-friendly. Some of the investigators were tried to use natural products as green inhibitors to prevent corrosion. Recently, a huge interested for the use of naturally occurring inhibitors extracted from plants have been emerged. Most of the natural products are non-toxic, biodegradable and readily available due to environmental concerns. In this review paper, corrosion ninhibition of various types of aluminium and it’s alloy, medium and green inhibitors have been reported. The inhibitor is chemically adsorbed on the surface of the metal and forms a protective thin film with inhibitor effect or by combination between inhibitor ions and metallic surface Corrosion of aluminium and its inhibition was analyzed by weight loss (Gravimetric), temperature effect (Gasometric), Potentiodynamicpolarization and Electrochemical Impedance Spectroscopy (EIS) were employed. The protective films formed on metal surface have been analyzed by various techniques such as Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM), Response Surface Methodology (RSM), FT-IR (Fourier Transform-Infrared Spectroscopy), UV (Ultra Violet)-Visible spectra, X-ray Diffraction spectroscopy (XRD), Energy Dispersive X-ray Spectroscopy (EDX), Electrochemical Frequency Modulation (EFM). The present review paper is an overview of works published on green inhibitors for protection of aluminium and it’s alloy from corrosion.<#LINE#>Kliskic, M. Radoservic, J. Gudic, S. and Katalinic, V. (2000).@Aqueous extract of Rosmarinus ocinalis L. as inhibitor of Al Mg alloy corrosion in chloride solution.@J. of Appl. Electrochem., 30(7), 823-830.@Yes$Al-Sehaibani, H. (2000).@Evaluation of extracts of henna leaves as environmentally friendly corrosion inhibitors for metals.@Mater. Wissen Werkst. Tech., 31(12), 1060-1063.@Yes$Radosevic, J. Kliskic, M. Visekruna, A. (2001).@Inhibition of corrosion of the Al-2.5Mg Alloy by means of the third acidic phenolic subfraction of aqueous extract of Rosemary Kemija U Industriji.@J. of Chemists and Chem. Engg., 50(10), 537-541.@Yes$El-Etre, A. Y. (2003).@Inhibition of aluminum corrosion using Opuntia extract.@Corros. Sci., 45(11), 2485- 2495.@Yes$Avwiri, G. O. and Igho, F.O. (2003).@Inhibitive action of Vernonia amygdalina on the corrosion of aluminium alloys in acidic media.@Mater. Letters., 57(22-23), 3705-3711.@Yes$Ebenso, E. E. Ibok, U. J. Ekpe, U. J. Umoren, S. Jackson, E. Abiola, O. K. Oforka, N. C. Martinez, S. et al. (2004).@Corrosion inhibition studies of some plant extracts on aluminium in acidic medium.@Trans. of the SAEST, 39(4), 117-123.@Yes$Berkovic, K. Kovac, S. and Vorkapic-Furac, J. (2004).@Natural compounds as environmentally friendly corrosion inhibitors of aluminium.@Acta Alimentaria., 33(3), 237-247.@Yes$Priya, S. L. Chitra, A. Rajenderan and S. Anuradha, K. (2005).@Corrosion behaviour of aluminiumin rain water containing garlic extract.@Surface Engg., 21(3), 229-231.@Yes$Jain, T. Chowdhary, R. Arora, P. and Mathur, S. P. (2005).@Corrosion inhibition of aluminum in hydrochloric acid solutions by peepal (Ficus Religeosa) extracts.@Bull. of Electrochem., 21(1), 23-27.@Yes$Sharma Manish Kumar, Sudesh K., Ratnani R. and Mathur S. P. (2006).@Corrosion inhibition of Aluminium by extracts of Prosopis cineraria in acidic media.@Bull. of Electrochem, 22(2), 69-73.@Yes$Abiola, O. K. Oforka, N. C. Ebenso, E. E. and Nwinuka, N. M. (2007).@Eco-friendly corrosion inhibitors: The inhibitive action of Delonix Regia extract for the corrosion of aluminium in acidic media.@Anti-Corrosion Methods and Materials, 54(4), 219-224.@Yes$Oguzie, E. E. (2007).@Corrosion inhibition of Aluminium in acidic and alkaline media by Sansevieria trifasciata extract.@Corros. Sci., 49(3), 1527-1539.@Yes$Ayeni, F. A. Aigbodion, V. S. and Yaro, S. A. (2007).@Non-toxic plant extract as corrosion inhibitor for chill cast Al-Zn-Mg alloy in caustic soda solution.@Eurasian Chemico-Tech. J., 9(2), 91-96.@Yes$Arora, P. Kumar, S. Sharma, M. K. and Mathur, S.P. (2007).@Corrosion Inhibition of Aluminium by Capparis decidua in Acidic Media.@E-J. of Chem., 4(4), 450-456.@Yes$Umoren, S. A. Obot, I. B. Ebenso, E. E. and Okafor, P. C. (2008).@Eco-friendly Inhibitors from Naturally Occurring Exudate Gums for Aluminium Corrosion Inhibition in Acidic Medium.@Portugaliae Electrochimica Acta., 26(3), 267-282.@Yes$Umoren, S. A. and Ebenso, E. E. (2008).@Studies of the anti-corrosive effect of Raphia hookeri exudate gum-halide mixtures for aluminium corrosion in acidic medium.@Pigment and Resin Tech., 37(3), 173-182.@Yes$Umoren, S. A. Obot, I. B. and Ebenso, E. E. (2008).@Corrosion inhibition of aluminium using exudate gum from Pachylobus edulis in the presence of halide ions in HCl.@E-J. of Chem., 5 (2), 355-364.@Yes$Arab, S. T. Al-Turkustani, A. M. and Al-Dhahiri, R. H. (2008).@Synergistic effect of Azadirachta Indica extract and iodide ions on the corrosion inhibition of aluminium in acid media.@J. of the Korean Chem. Soc., 52(3), 281-294.@Yes$Abdel-Gaber, A. M. Khamis, E. Abo-ElDahab, H. Adeel, S. H. (2008).@Inhibition of aluminium corrosion in alkaline solutions using natural compound.@Materials Chem. and Phy., 109(2-3), 297-305.@Yes$Umeron, S. A. Obet, I. B. Akpabio, L. E. and Etuk, S. E. (2008).@Adsorption and corrosive inhibitive properties of Vigna unguiculata in alkaline and acidic media.@Pigment and resin tech., 37(2), 98-105.@Yes$Solmaz, R. Kardas, G. Yazici, B. and Erbil, M. (2008).@Citric acid as natural corrosion inhibitor for aluminium protection.@Corros. Engg. Sci. and Tech., 43(2) 186-191.@Yes$James, A. O. and Akaranta, O. (2009).@Corrosion inhibition of aluminum in 2.0 M hydrochloric acid solution by the acetone extract of red onion skin.@African J. of Pure and Appl. Chem., 3(12), 262-268.@Yes$Abiola, O. K. Otaigbe, J. O. E. and Kio, O. J. (2009).@Gossipium hirsutum L. extracts as green corrosion inhibitor for aluminum in NaOH solution.@Corros. Sci., 51 (8), 1879-1881.@Yes$Noor, E. A. (2009).@Potential of aqueous extract of Hibiscus sabdariffa leaves for inhibiting the corrosion of aluminum in alkaline solutions.@J. of Appl. Electrochem., 39(9), 1465-1475.@Yes$Rajenderan, S. Jeyasundari, J. Usha, P. Selvi, J.A. Narayanasamy, B. Regis, A. P. P. and Renga, P. (2009).@Corrosion behaviour of aluminium in the presence of an aqueous extract of Hibiscus rosasinensis.@Portugaliae Electrochimica Acta., 27(2), 153-164.@Yes$Chauhan, J. S. (2009).@Anticorrosion behaviour of Zenthoxylum alatum extract in acidic media.@Asian J. of Chem., 21(3), 1975-1978.@Yes$Rajalakshmi, R. Subhashini, S. Nanthini, M. and Srimathi, M. (2009).@Inhibiting effect of seed extract of Abrusprec atorius on corrosion of aluminium in sodium hydroxide.@Oriental J. of Chem., 25(2), 313-318.@Yes$Obot, I. B.and Obi-Egbedi, N. O. (2009).@Ginseng. Root: A new efficient and effective eco-friendly corrosion inhibitor for aluminium alloy of type AA 1060 in hydrochloric acid solution.@Int. J. of Electrochem. Sci., 4(9), 1277-1288.@Yes$Umorena, S.A. Obota, I.B. Ebensob, E.E. and Obi-Egbedib, N.O. (2009).@The Inhibition of aluminium corrosion in hydrochloric acid solution by exudate gum from Raphia hookeri.@Desalination, 247, 561-572.@Yes$Nair, Rekha N.Sharma, Shashi. Sharma, I. K. Verma, P. S. and Sharma, Alka (2010).@Inhibitory Efficacy of Piper nigrum linn. extract on corrosion of AA 1100 in HCl.@Rasayan J. Chem., 3 (4), 783-795.@Yes$Obot, I. B. Obi-Egbedi, N. O. Umoren, S. A. and Ebenso, E. E. (2010).@Synergistic and antagonistic effects of anions and Ipomoea invulcrata as green corrosion inhibitor for aluminium dissolution in acidic medium.@Int. J. of Electrochem. Sci., 5(7), 994-1007.@Yes$Obot, I. B.and Obi-Egbedi, N.O. (2010).@An interesting and efficient green corrosion inhibitor for aluminium from extracts of Chlomolaena odorata L. in acidic solution.@J. of Electrochem., 40(11), 1977-1984.@Yes$Ating, E.I. Umoren, S.A. Udousoro, I. I.Ebenso, E. E. and Udoh, A. P. (2010).@Leaves extract of Ananas sativum as green corrosion inhibitor for aluminium in hydrochloric acid solutions.@Green Chem. Letters and Rev., 3(2), 61-68. https://doi.org/10.1080/17518250903505253.@Yes$Al-Turkustani, A. M. Arab, S. T. and Al-Dahiri, R. H. (2010).@Aloe Plant Extract as Environmentally Friendly Inhibitor on the Corrosion of Aluminum in Hydrochloric Acid in Absence and Presence of Iodide Ions.@Modern Appl. Sci., 4(5), 105-124.@Yes$Nnanna, L. A. Onwuagba, B. N. Mejeha, I. M. Okeoma, K.B. (2010).@Inhibition effect of Some Plant Extracts on the Acid Corrosion of Aluminium Alloy.@Afri. J. Pure Appl. Chem., 4(1), 011-016.@Yes$Abiola, O. K. Tobun, Y. (2010).@Cocos nuclifera L. water as green corrosion inhibitor for acid corrosion of aluminium in HCl solution.@Chinese Chem. Lett., 21 (12), 1449-1452.@Yes$Anozie, I. U. Akoma, C. S. and Nnanna, L. A. (2011).@Corrosion Inhibition of Aluminium Alloy in Acidic Medium by Euphorbia hirta and Dialum guineense Extracts.@Int. J. Pure Appl. Sci. Tech., 6(2), 79-88.@Yes$Abiola, O. K. Odin, E.M. Olowoyo, D. N. and Adeloye, T.A. (2011).@Gossipium hirsutum L. Extract as Green Corrosion Inhibitor for Aluminum in HCl solution.@Bull. Chem. Soc. Ethiop., 25(3), 475-480.@Yes$Nkiko, M. O. and Bamgbose, J. T. (2011).@Corrosion inhibitive effect of Ocimum Gratissium extract on Zinc-Aluminium alloy in hydrochloric acid.@Portugaliae Electrochemica Acta., 29 (6), 419-427.@Yes$Wan Nik, W. B. Zulkifli, F. Rosliza, R. Rahman, M. M. (2011).@Lawsonia Inermis as green inhibitor for corrosion protection of aluminium alloy.@Int. J. of Multi. Edu. Res., 1 (2), 723-728.@Yes$Obot, I. B. Umeron, S. A. and Obi-Egbedi, N. O. (2011).@Corrosion inhibition and adsorption behaviour for aluminuim by extract of Aningeria robusta in HCl solution: Synergistic effect of iodide ions.@J. Mater. Environ. Sci., 2 (1), 60-71.@Yes$Rosliza, R. and Izman, S. (2011).@SEM_EDS Characterization of Natural Products on Corrosion Inhibition of Al−Mg−Si Alloy.@Protec. Metals Phys. Chem. Surf., 47(3), 395-401.@Yes$Ajayi, O. O. Omotosho, O. A. Ajanaku, K. O. and Olawore, B. O. (2011). Failure Evaluation of Aluminium Alloy in 2 M Hydrochloric Acid in the Presence of Cola acuminata. Environ. Res. J., 5(4), 163-169.@undefined@undefined@Yes$Ajayi, O.O. and Omotosho, O.A. (2011).@Degradation Study of Aluminium Alloy in 2 M Hydrochloric Acid in the Presence of Chromolaena odorata.@J. of Engg. and Appl. Sci., 6(1), 10-17.@Yes$Akalezi, Chris. O. Ogukwe, Cynthia. E. Enenebaku, Conrad. K. and Oguzie, Emeka. E. (2012).@Corrosion Inhibition of Aluminium Pigments in Aqueous Alkaline Medium Using Plant Extracts.@Environ. and Poll., 1(2)@Yes$Babatunde, A. I.Ogundele, O. Oyelola, O. T. and Abiola, O. K. (2012).@The inhibitive effect of Irvingiaga bonensis extracts on the corrosion of aluminium in 1M HCl solution.@Adv. in Appl. Sci. Res., 3(6), 3944-3949@Yes$Halambek, Jasnaand and Berkovic, Katarina (2012).@Inhibitive Action of Anethum graveolens L. oil on Aluminium Corrosion in Acidic Media.@Int. J. Electrochem. Sci., 7, 8356-8368.@Yes$Singh, A. Ebenso, E. E. and Quraishi, M. A. (2012).@Stem extract of Brahmi (Bacopa monnieri) as green corrosion inhibitor for aluminium in NaOH solution.@Int. J. of Electrochem. Sci., 7, 3409-3419.@Yes$Singh, A.and Quraishi, M. A. (2012).@Pipali (Piper longum) and Brahmi (Bacopa monnieri) extracts as green corrosion inhibitor for aluminium in NaOH solution.@J. of Chem. and Pharma and Res., 4(1), 322-325.@Yes$Alinnor, I. J. and Ukiwe, L. N. (2012).@Evaluation of inhibitory effect of different extracts of Vernonia Amygdalina on corrosion ofaluminium in hydrochloric acid.@Int. J. of Green and Herbal Chem., Sec. A, 1(2), 120-132.@Yes$Deng, S. and Li, X. (2012).@Inhibition by Jasminum Nudiflorum Lindl. Leaves Extract of the Corrosion of Aluminium in HCl Solution.@Corros. Sci., 64, 253-262.@Yes$Ali, A. I. and Foaud, N. (2012).@Inhibition of aluminum corrosion in hydrochloric acid solution using black mulberry extract.@J. Mater. Environ. Sci., 3(5), 917-924.@Yes$Alinnor, I. J. and Ejikeme, P. M. (2012).@Corrosion inhibition of aluminum in acidic medium by different extracts of Ocimum gratissimum.@Amer. Chem. Sci. J., 2(4), 122-135.@Yes$Ejikeme, P. M. Umana, S. G. and Onukwuli, O. D. (2012).@Corrosion Inhibition of Aluminium by Treculia Africana Leaves Extract in Acid Medium.@Portugal Electrochim. Acta., 30(5), 317-328.@Yes$Gerengi, H. (2012).@Anticorrosive properties of date palm (Phoenix dactylifera L.) fruit juice on 7075 type aluminum alloy in 3.5% NaCl solution.@Ind. Eng. Chem. Res., 51(39), 12835-12843.@Yes$Dubey, J. Jeengar, N. Upadhyay, R. K. and Chaturvedi, A. (2012).@Corrosion Inhibitive Effects of Withania Somnifera (A medicinal plant) on Aluminium in HCl Solution.@Res. J. Recent. Sci., 1(ISC-2011), 73-78.@Yes$Obi-Egbedi, N. O. Obot, I. B. and Umoren, S. A. (2012).@Spondias mombin L. as a green corrosion inhibitor for aluminium in sulphuric acid: Correlation between inhibitive effect and electronic properties of extracts major constituents using density functional theory.@Arabian J. Chem., 5(3), 361-373.@Yes$Singh, A. and Quraishi, M. A. (2012).@Azwain (Trachyspermumcopticum) seed extract as an efficient corrosion Inhibitor for Aluminium in NaOH solution.@Res. J. Recent. Sci., 1(ISC-2011), 57-61.@Yes$Ihebrodike, M.M. Nwandu, M.C. Okeoma, K.B. Nnanna, L.A. Chidiebere, M.A. Eze and F.C. Oguzie, E.E. (2012).@Experimental and theoretical assessment of the inhibiting action of Aspilia africana extract on corrosion aluminum alloy AA3003 in hydrochloric acid.@J. Mater. Sci., 47, 2559-2572.@Yes$Madufor, I. C. Itodoh, U. E. Obidiegwu, M. U. and Nwakaudu, M. S. (2012).@Inhibition of Aluminium Corrosion in Acidic Medium by Chrysophyllum albidum (African star Apple) Fruit Extract.@IOSR J. of Engg., 2 (9), 16-23.@Yes$Abdulwahab, M. Popoola, A. P. I. and Fayomi, O. S. I. (2012).@Inhibitive Effect by Ricinus communis on the HCl/H3PO4 Acid Corrosion of Aluminium Alloy.@Int. J. Electrochem. Sci., 7, 11706-11717.@Yes$Mat Satar, Mohd Zaidi Mohd Noor, Farhan MohdSamsudin, Mohd Wahid Othman.Mohamed Rozali (2012).@Corrosion Inhibition of Aluminum by Using Nipah (Nypa Fruticans) Extract Solutions in Hydrochloric Acid (HCl) Media.@Int. J. Electrochem. Sci., 7, 1958-1967.@Yes$Kumpawat, N. Chaturvedi, A. and Upadhyay, R. K. (2012).@Study on Corrosion Inhibition Efficiency of Stem Alkaloid Extract of Different Varieties of Holy Basil on Aluminium in HCl Solution.@J. of the Korean Chem. Soc., 56(4), 401-405.@Yes$Ajayi, O.O. Joseph, O.O. Omotosho, O.A. and Olabowale, T.O. (2012).@Rauvolfiavor mitoria Effect on the Degradation of Aluminium Alloy in 2.5 M Hydrochloric Acid Solution.@Proc. ICCEM., 21-29.@Yes$Omotosho, O. A. and Ajayi, O. O. (2012).@Investigating the Acid Failure of Aluminium Alloy in 2 M Hydrochloric Acid Using Vernonia amygdalina.@J. Eng. Sci., 44(1), 77-92.@Yes$Fares, M. M. Maayta, A.K. and Al-Qudah, M. M. (2012).@Pectin as promising green corrosion inhibitor of aluminum in hydrochloric acid solution.@Corros. Sci., 60,112-117.@Yes$Li, X. and Deng, S. (2012).@Inhibition effect of Dendrocalamus brandisii leaves extract on aluminum in HCl, H3PO4 solutions.@Corros. Sci., 65, 299-308.@Yes$Umoren, S.A. Eduok, U.M. Israel, A.U. Obot, I.B. and Solomon, M.M. (2012).@Coconut coir dust extract: a novel eco-friendly corrosion inhibitor for Al in HCl solutions, Green Chem.@Letters and Rev., 5(3), 303-313. DOI: 10.1080/17518253.2011.625980.@Yes$Petchiammal, A. and Selvaraj, S. (2013).@Influence of Cassia alata leaves on aluminium in 1.0 N hydrochloric acid.@Caribian. J. Sci. Tech., 1, 123-130.@No$Sharma Alka, Chaudhari G., Sharma Arpita and Yadav S. (2013).@Effect of temperature on inhibitory efficacy of Azadirachta indica fruit on acid corrosion of Aluminium.@Int. J. of Innovative Res. in Sci., Engg. and Tech., 2(12), 7982-7992.@Yes$Ladha, D. G. Naik, U. J. and Shah, N. K. (2013).@Investigation of Cumin (Cuminum Cyminum) extract as an eco-friendly green corrosion inhibitor for pure Aluminium in Acid medium.@J. Mater. Env. Sci., 4(5), 701-708.@Yes$Halambek, J. Zutinic, A. and Berkovic, K. (2013).@Ocimum basilium L. oil as corrosion inhibitor for aluminum in hydrochloric acid solution.@Int. J. Electrochem. Sci., 8, 11201-11214.@Yes$Prabhu, D.and Rao, P. (2013).@Coriandrum sativum L.-A novel green inhibitor for the corrosion inhibition of aluminium in 1.0 M phosphoric acid solution.@J. Environ. Chem. Eng., 1(4), 676-683.@Yes$Ayuba, A. M. and Mustapha, A. A. (2013).@Inhibitive and Synergistic Properties of Ethanolic Extract of Anogeissus Leiocarpus Leaves on the Corrosion of Aluminium in HCl Solution.@Chem. Search J., 4(2), 55-65.@Yes$Petchiammal, A. and Selvaraj, S. (2013).@Investigation of Anti-Corrosive Effects of Lebbeck Seed Extract on Aluminum in Acid Environment.@The Pacific J. of Sci. and Tech., 14(1), 31-39.@Yes$Petchiammal, A. and Selvaraj, S. (2013).@The Corrosion Control of Aluminium Using Lawsonia Inermis Seed Extract In Acid Medium.@Int. J. Chem. Tech. Res., 5(4), 1566-1574.@Yes$Nawafleh, Eyad M. Bataineh, Tareq T. Irshedat, Muna K. Al-Qudah, Mahmoud. A. and Abu Orabi, Sultan. T. (2013).@Inhibition of Aluminum Corrosion by Salvia judica Extract.@Res. J. Chem. Sci., 3(8), 68-72.@Yes$Adejo, S. O. Yiase, S. G. Ahile, J. U. Tyohemba, T. G. and Gbertyo, J. A. (2013).@Inhibitory effect and adsorption parameters of extract of leaves of Portulaca oleracea of corrosion of aluminium in H2SO4 solution.@Archives of Appl. Sci. Res., 5(1), 25-32.@Yes$Adejo, S.O. Gbertyo, J.A. and Ahile, J. U. (2013).@Inhibitive properties and adsorption consideration of ethanol extract of Manihot esculentum leaves for corrosion inhibition of aluminium in 2 M H2SO4.@Int. J. of Modern Chem., 4(3), 137-146.@Yes$Geetha S., Lakshmi S. and Bharathi K. (2013).@Corrosion inhibition of aluminium in Alkaline Medium using Vitex Negundo leaves Extract.@Int. J. of Adv. Scientific and Tech. Res., 3(3), 258-268.@Yes$Geetha S., Lakshmi S. and Bharathi K. (2013).@Solanum trilobatum as a green inhibitor for aluminium corrosion in alkaline medium.@J. of Chem. and Pharma. Res., 5(5), 195-204.@Yes$Ramirez-Arteaga, M. Valladares, M. G. Gonzalez and Rodriguez, J. G. (2013).@Use of Prosopis laevigata as a Corrosion Inhibitor for Al in H2SO4.@Int. J. Electrochem. Sci., 8, 6864-6877.@Yes$Onen A. I., Barminas, J. T. and Jacob, J. (2013).@Inhibitory Action of Ficus carica Extracts on Aluminium Corrosion in Acidic Medium.@Chem. Sci. Trans., 2(4), 1326-1333.@Yes$Yadav, S. Choudhary, G. and Sharma, A. (2013).@Green Approach to Corrosion Inhibition of aluminium and copper by Ziziphus mauritiana Fruit Extract in Hydrochloric Acid Solution.@Int. J. of Chem. Tech Res., 5(4), 1815-1823.@Yes$Halambek, J. Berkovic, K. and Vorkapic-Furac, J. (2013).@Laurus nobilis L. oil as green corrosion inhibitor for aluminium and AA5754 aluminium alloy in 3% NaCl solution.@Materials Chem. and Phy., 137, 788-795.@Yes$Loto, C.A. Joseph, O. O. and Loto, R.T. (2014).@Adsorption and Inhibitive Properties of Camellia Sinensis for Aluminium Alloy in HCI.@Int. J. Electrochem. Sci., 9(7), 3637-3649.@Yes$Khadijah, M. Emrana. Najla, M. Ahmedb. Bayan, A. Torjomanb. Arwa, A. Al-Ahmadib. Sara and N. Sheekhb (2014).@Cantaloupe Extracts as Eco Friendly Corrosion Inhibitors for Aluminum in acidic and alkaline solutions.@J. Mater. Environ. Sci., 5(6), 1940-1950.@Yes$Al-Haj-Ali, A. M. Jarrah, N. A. Muaazu, N. D. Rihan, R. O. (2014).@Thermodynamics and Kinetics of Inhibition of Aluminum in Hydrochloric Acid by Date Palm Leaf Extract.@J. Appl. Sci. Environ. Manage., 18(3), 543-551.@Yes$Nnanna, L.A. John and W. O. Nwadiuko, O. (2014).@Corrosion Inhibition Study of Aluminium Alloy AA3003 in Alkaline Medium by Palisota Hirsute Extract.@Int. J. of Engg. Res. and Reviews, 2(4), 113-118.@Yes$Bataineh T.T. Al-Qudah, M. A. Nawafleh E. M and Al-Rawashdeh, N. A. F. (2014).@Sinapis Alba Extract as Green Corrosion Inhibitor for Aluminium in Alkaline Media.@Int. J. Electrochem. Sci., 9(7), 3543-3557.@Yes$Ajanaku, K. O. Aladesuyi, O. Anake, W. U. Edoor-Osoh, A. Ajanaku, C. O. Siyanbola, T. O. and Akinsiku, A. A. (2014).@Inhibitive properties of Carica papaya leaf extract on Aluminium in 1.85 M HCl.@J. Adv. in Chem., 8(2), 1651-1659.@Yes$Pushpanjali, M. Rao, S. A. and Padmalatha (2014).@Carica papaya seeds-Green Inhibitor for Corrosion Control of Aluminium in Acid Medium.@J. Applicable Chem., 3(1), 310-323.@Yes$Shalabi, K. Fouda, A. S. Elewady, G. Y. El-Askalany, A. (2014).@Adsorption and Inhibitive Properties of Phoenix dactylifera L. extract as a Green Inhibitor for Aluminum and Aluminum Silicon Alloy in HCl.@Protec. of Metals & Phys. Chem. of Surf., 50(3), 420-431.@Yes$Al-Mhyawi, S. R. (2014). Corrosion Inhibition of Aluminum in 0.5 M HCl by Garlic Aqueous Extract. Oriental J. Chem., 30(2), 541-552.@undefined@undefined@Yes$Yiase, S. G. Adejo, S. O. Tyohemba, T.G. Ahile, J. U. and Gbertyo, J. A. (2014).@Thermodynamic, Kinetic and Adsorptive Parameters of Corrosion Inhibition of Aluminium Using Sorghum bicolor Leaf Extract in H2SO4.@Int. J. of Adv. Res. in Chem. Sci., 1(2), 38-46.@Yes$Krishnaveni, K. and Ravichandran, J. (2014).@Effect of aqueous extract of leaves of Morindatinctoria on corrosion inhibition of aluminium surface in HCl medium.@Trans. Nonferrous Met. Soc. China., 24, 2704−2712.@Yes$Ali, A. I. (2014).@Melia azedarach L. as eco-friendly corrosion inhibitor for Aluminium in 2 M HCl.@J. Mater. Environ. Sci., 5(3), 793-802.@Yes$Nair, R. N. Monika. Choudhary, G. Sharma, A. and Sharma, A. (2014).@Effect of alevation in temperature on inhibitory action of Murraya koenigii leaves on acid corrosion AA6063.@Int. J. of Adv. Scientific and Tech. Res., 4(4), 975-989.@Yes$Nwosu, O.F. and Osarolube, E. (2014).@Corrosion Inhibition of Aluminium Alloy in 0.75 M KOH Alkaline Solution Using Xylopia aethiopica Seed Extract.@Physical Sci. Int. J., 4(9), 1235-1243.@Yes$Al Shboula, Tareq M. A. Jazzazib, Taghreed M. A Batainehb, Tareq T. Al Qudahb Mahmoud A. Alrawashdeha and Albara I. (2014).@Inhibition of Corrosion of Aluminium in NaOH Solution by Leave Extract of Mesembry anthemum nodiflorum.@Jordan J. of Chem., 9(3) 149-158.@No$Ayeni, Fatai Afolabi Alawode, Saheed Joseph, Dorcas Sukop, Patrick Olawuyi, Victoria Alonge, Temitope Emmanuel Alabi, Oladuuni Oyelola Oluwabunmi, Oluwakayode Alo and Francis Ireti (2014).@Investigation of Sida acuta (Wire Weed) Plant Extract as Corrosion Inhibitor for Aluminium-Copper-Magnessium Alloy in Acidic Medium.@J. of Minerals and Mater. Characterization and Engg., 2, 286-291.@Yes$Arukalam, I.O. Alaohuru, C.O. Ugbo, C.O. Jideofor, K.N. Ehirim, P.N. and Madufor, I.C. (2014).@Effect of Xanthan gum on the Corrosion Protection of Aluminium in HCl medium.@Int. J. of Advancements in Res. & Tech., 3(3), 5-16.@Yes$Ejikeme, P. M. Umana, S. G. Alinnor, I. J. Onukwuli, O. D. and Menkiti, M. C. (2014).@Corrosion Inhibition and Adsorption Characteristics of Jatropha curcas Leaves Extract on Aluminium in 1M HCl.@American J. of Mater. Sci., 4(5), 194-201.@Yes$Aliyu, M. Ja@Adsorption and Inhibitive properties of Ficus sycomorus gum on the corrosion of aluminium in HCl.@Int. J. of Scientific and Res. Publications., 5(3), 1-6.@No$Al-Turkustani, A. M. and Emran, K. M. (2015).@Evaluating the Behavior of Aluminum Corrosion in Hydrochloric Acid in the Presence Aqueous Extract of Olive Seeds.@Int. J. of Innovative Res. in Sci., Engg. and Tech., 4(3), 1018-1027.@Yes$Ladha, D. G. Wadhwani, P. M. Lone, M.Y. Jha, P. C. and Shah, N.K. (2015).@Evaluation of fennel seed extract as a green corrosion inhibitor for pure aluminum in hydrochloric acid: An experimental and computational approach.@Anal. and Bioanalyt. Electrochem., 7(1), 59-74.@Yes$Fouda, A.S. Fouda, Abd El-Aziz S.Abo-Shohba, R. Husien, W.M. and Ahmed E.S. (2015).@Chemical and electrochemical study on the effectively of Melilotus officinalis extract as save corrosion inhibitor for aluminium in 1 M hydrochloric acid solutions.@Glob. J. Res. Engg., 15(3), 9-24.@No$Khadraoui, A. Khelifa, A. Hachama, K. and Mehdaoui, R. (2015).@Thymus Algeriensis Extract as a new eco-Friendly Corrosion Inhibitor for 2024 Aluminium Alloy in 1M HCl Medium.@J. Mol. Liq., 214, 293-297.@Yes$Abd-El-Naby, B.A. Abdullatef, O. A. El-Kshlan, H. M. Khamis, E. and Abd-El-Fatah, M. A. (2015).@Effect of Alkaline Etching on the Inhibition of the Acidic Corrosion of Aluminum by Lupine Extract.@Port. Electrochim. Acta., 33(1), 1-11.@Yes$Ladha, D. G. Wadhwani, P.M. Kumar, S. and Shah, N.K. (2015).@Evaluation of corrosion inhibitive properties of Trigonellafoenum-graecum for pure Aluminium in hydrochloric acid.@J. Mater. Environ. Sci., 6(5), 1200-1209.@Yes$Pushpanjali, M. Rao and S. A. Padmalatha (2015).@Eco friendly Green Inhibitor Tinospora cordifolia (Linn.) For the Corrosion Control of Aluminium in Sulfuric Acid Medium.@Int. J. of Inno. Res. In Sci, Eng. and Tech., 4(2), 325-333.@Yes$Okeke, P. I. Maduka, O. G. Emeronye, R. U. Akalezie, C. O. Mughele, K. Achinihu, I. O. and Azubuike, N. E. (2015).@Corrosion Inhibition Efficacy of Cninodosculusch ayamansa Extracts on Aluminium Metal in Acidic and Alkaline Media.@The Int. J. of Sci & Tech., 3(3), 227-234.@Yes$Molina-Ocampo, L. B. Valladares-Cisneros, M. G. and Gonzalez-Rodriguez, J. G. (2015).@Using Hibiscus Sabdariffa as Corrosion Inhibitor for Al in 0.5 M H2SO4.@Int. J. Electrochem. Sci., 10, 388-403.@Yes$Ajanaku, K. O. Aladesuyi, O. Ajanaku, C. O. Adedapo, E. A. Akinsiku, A. A. and Sodiya, F. E. (2015).@Adsorption properties of Azadirachta indica extract on corrosion of Aluminium in 1.85 M Hydrochloric acid.@J. of Adv. Rea. In Appl. Sci., 2(2), 1-10.@Yes$Orie, K. J. and Christian, Mathew (2015).@The Corrosion Inhibition of Aluminium Metal In 0.5 M Sulphuric Acid Using Extract of Breadfruit Peels.@Int. Res. J. of Eng. and Tech., 2(8), 1-9.@Yes$Chahul, H. F. Ayuba, A. M. and Nyior, S. (2015).@Adsorptive, Kinetic, Thermodynamic and Inhibitive Properties of Cissus Populnea Stem Extract on the Corrosion of Aluminum in Acid Medium.@Chem. Search J., 6(1), 20-30.@Yes$Nithya, A. Shanthy, P. Vijaya, N. Rathish, R. J. Santhana, Prabha S. Joany, R. M. and Rajendran, S. (2015).@Inhibition of Corrosion of Aluminium by an Aqueous Extract of Beetroot (Betanin).@Int. J. Nano. Corr. Sci. Engg., 2(1), 1-11.@Yes$Njoku, C. N. and Onyelucheya, O. E. (2015).@Response Surface Optimization of the Inhibition Efficiency of Gongronema latifolium as an Inhibitor for Aluminum Corrosion in HCl Solutions.@Int. J. of Mater. and Chem., 5(1), 4-13. DOI: 10.5923/j.ijmc.20150501.02@Yes$Abakedi.Okon, U. Asuquo and James, E. (2016).@Corrosion Inhibition of Aluminium in Acidic Medium by Ethanol Leaf Extract of Azadirachta indica.@J. Basic Appl. Res., 2(4), 556-560.@Yes$Abiola, O. K. Aliyu, A. O. C. and Muhammed, S. (2016).@Eco-friendly corrosion inhibitors: Effect of Delonix regia extract on corrosion and kinetics of corrosion process of aluminium alloy 2S in HCl solution.@African Corros. J., 2(2), 11-16.@No$Shah, N.K. Ladha, D.G. Wadhwani, P.M. Thakur, S. Lone, M. and Jha, P.C. (2016).@Corrosion inhibition performance of Coriander Seeds extract molecules for pure Aluminum in Hydrochloric acid Medium: A combined Experimental and Quantum chemical approach.@Res. J. of Recent Sci., 5(1), 27-34.@Yes$Demian, I. N. Ukaga, I. Ikenna, O. B. Oguzie, E. E. Oguzie, K. L. and Ibisi, N. (2016).@Natural Products for Materials Protection: Corrosion Protection of Aluminium in Hydrochloric Acid by Kola Nitida Extract.@J. Mol. Liq., 219, 417-424. doi:10.1016/j.molliq.2016.03.049.@Yes$Deyab, M.A. (2016).@Corrosion Inhibition of Aluminumin Biodiesel by Ethanol Extracts of Rosemary Leaves.@J. Taiwan Inst. Chem. Eng., 58, 536-541.@Yes$Singh, A. Ahamad, I. and Quraishi, M. A. (2016).@Piper Longum extract as Green Corrosion Inhibitor for Aluminiumin NaOH Solution.@Arab. J. Chem., 9(2), S1584-S1589. DOI:10. 1016/j.arabjc.2012.04.029.@Yes$Njoku, D. I. Onuoha, G. N. Oguzie, E. E. Oguzie, K. L. Egbedina, A. A. and Alshawabkeh, A.N. (2016).@Nicotiana Tabacum Leaf Extract Protects Aluminium Alloy AA3003 From Acid Attack.@Arab. J. Chem. in press., 12(8),1-13. doi:10.1016/j.arabjc. 2016.07.017.@Yes$Pushpanjali, M. Rao, S. A. and Rao, Padmalatha (2016).@Inhibition study of Andrographis paniculata plants extract for the corrosion control of Aluminum in hydrochloric acid medium.@Int. J. of Chem. Tech. Res., 9(12), 291-304.@Yes$Gudić, S. Vrsalović, L. Kliškić, M. Jerković, I. Radonić, A. and Zekić, M. (2016).@Corrosion Inhibition of AA 5052 Aluminium Alloy in NaCl Solution by Different Types of Honey.@Int. J. Electrochem. Sci., 11, 998-1011.@Yes$Al-Mazaideh, Ghassab M. Ababneh, Khalid S. Abu-Shandi, H. Rasheed M. Jamhour, A. Q. Salman, Haya J. Ayaal. Al-Msiedeen, Ashraf M. and Khalil, Salim M. (2016).@DFT Calculations of Mesembryanthemum nodiflorum Compounds as Corrosion Inhibitors of Aluminum.@Phy. Sci. Int. J., 12(1), 1-7.@No$Anbarasi, K. and Mini, S. (2016).@Adsorption and Inhibitive Properties of Peel extract of Cucurbita maxima as Green Inhibitor for Aluminium in 1N HCl.@Chem. Sci. Rev. Lett., 5(19), 197-204.@No$Vashi, R. T. and Prajapati, N. I. (2017).@Corrosion Inhibition of Aluminium in Hydrochloric Acid Using Bacopa monnieri Leaves Extract as Green Inhibitor.@Int. J. of Chem. Tech. Res., 10(15), 221-231.@Yes$Vashi, R. T. and Prajapati, N. I. (2017).@Corrosion Inhibition of Aluminium in Hydrochloric Acid by Lawsonia inermis Leaves Extract.@J. Chem. Bio. Phys. Sci., 7(4), 950-964.@No$Prajapati, N. I. and Vashi, R.T. (2017).@Oscimum sanctum (Tulsi) leaves extract as corrosion inhibitor for aluminium in hydrochloric acid medium.@Int. J. of Innovative Res. In Sci., Engg. and Tech., 6(8), 16376-16386.@Yes$Nathiya, R. 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O. and Osarolube, E. (2018).@Acidic Corrosion Inhibition Mechanism of Aluminum Alloy Using Green Inhibitors.@American J. of Mater. Sci., 8(3), 45-50.@Yes$Chaubey, N. Singh, V. and Quraishi, M. (2018).@Papaya Peel Extractas Potential Corrosion Inhibitor for Aluminium Alloy in 1M HCl: Electrochemical and Quantum Chemical Study.@Ain Shams Eng. J., 9(4), 1131-1140.@Yes$Wisdom O., John Kelechi, Denkoro Ugochukwu and Joseph (2018).@Green Inhibitor for Corrosion of Aluminium Alloy AA8011A in Acidic Environment.@Int. Res. J. of Engg. and Tech., 05(2), 121-124.@Yes$Anbarasi, C, Mary. and Suruthi, K. S. (2018).@Chrysan themum Flower Extract as a Green Inhibitor for Aluminium Corrosion in Alkaline Medium.@Int. J. of Chem. Tech. Res., 11(7) 37-44.@No$Madueke, Nancy AdaIroha, and Nkem B. (2018).@Protecting Aluminium Alloy of type AA8011 from acid corrosion using extract from Allamanda cathartica Leaves.@Int. J. of Innovative Res. in Sci., Engg. and Tech., 7(10), 10251-10258.@Yes$Desai, S. A. 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Ake, M.B. and Jawando, G.O. (2018).@Inhibition Effect of Orange Seed Extract on Aluminium Corrosion in 1m Hydrochloric Acid Solution.@Int. J. of Mechanical Engg. and Tech., 9(12), 282-287.@Yes$Prajapati, N. I. Vashi, R. T. and Desai, S. A. (2019).@Corrosion Inhibition of Aluminium in HCl by Azadirachta indica Extract: Thermodynamic, Adsorption and kinetic study.@Int. J. of Res. and Anal. Review, 6(1), 1239-1245.@Yes$Vashi, R. T.and Prajapati, N. I. (2019).@Corrosion Inhibition of Aluminium in Hydrochloric Acid Solutions by Azadirachta indica (Neem) Leaves Extract as Green Inhibitor.@Int. J. of Green and Herbal Chem., Sec. A; 8(2), 444-452. DOI: 10.24214/IJGHC/GC/8/2 /44452.@No$Prajapati, N. I. Vashi, R. T. and Desai, S. A. (2019).@Corrosion Inhibition of Aluminium in HCl by Cuminum cyminum (Jeera) Seeds Extract: Adsorption, Kinetic and Thermodynamic Study.@Int. J. of Res. and Anal. Reviews., 6(2), 37z-43z.@Yes$Sharma, S. and Sharma, Y.C. (2019).@Cordia Dichomota as Corrosion Inhibitor for Aluminum Alloy (AA6063) in Hydrochloric Acid.@Portugaliae Electrochimica Acta., 37(1), 1-22.@No$El-Katori E. E. and Al-Mhyawi, S. (2019).@Assessment of the Bassia muricata extract as a green corrosion inhibitor for aluminum in acidic solution.@Green Chem. Letters and Reviews., 12(1), 31-48.@Yes$Hechiche, Nacer Boughrara, Dalila Kadri, Abdelaziz Nacera Dahmani and Benbrahi, Nassima (2019).@Artemisia Herba Alba Essential Oil as Green Corrosion Inhibitor for Aluminum in Hydrochloric Acid Solution.@Anal. Bio Anal. Electrochem., 11(8), 1129-1147.@Yes$Bashir, S. Singh, G. and Kumar, Ashish (2019).@Shatavari (Asparagus Racemosus) as green corrosion inhibitor of aluminum in acidic medium.@Portgualiae Electrochim. Acta., 37(2), 82-91.@Yes$Meena, O. P. Nainawat, A. and Chaturvedi, A. (2019).@Corrosion Inhibition of Aluminium by Alkaloid Extract of Aerial Part of Euphorbia neriifolia Linn in HCl Solutions.@Int. J. Chem. Tech. Res., 12 (02), 234-242.@Yes$HamdouImane, Essahli Mohamed and Lamiri Abdeslam. (2019).@Inhibition of Aluminum Corrosion in 0.1 M Na2CO3 by Mentha pulegium.@Portugaliae Electrochimica Acta., 37(6), 335-344. DOI: 10.4152/pea.201906335.@No$Manwani, Neha and Upadhyay, R. K. (2019).@A Comperative Study of Inhibition Efficiency of Extract of Leaves and Stem of Solanum Xanthocarpum on Aluminium in 2N HCl Solution.@Int. J. of Engg. Res. & Tech., 8(11), 472-475.@Yes$Palumbo Gaetano Berent, Katarzyna Proniewicz, Edyta and Banaś Jacek (2019).@Guar Gum as an Eco-Friendly Corrosion Inhibitor for Pure Aluminium in 1-M HCl Solution.@Materials, 12(16), 2620. 1-19.@No$Meena O, Chaturvedi A. and Meena, C. (2019).@Corrosion Inhibition Effect of Aerial Parts of Euphorbia Neriifolia Linn on Aluminium in Nitric Acid Solution.@Int. J. of Green and Herbal Chem., Sec. A, Sec. A, 8(4), 801-814. DOI: 10.24214/IJGHC/GC/8/4 /80114.@No$Prajapati, N. I. Vashi, R.T. and Desai, S.A (2020).@Fennel (Foeniculum vulgare mill) seeds extract as green inhibitor for aluminium corrosion in HCl acid solution: thermodynamic, adsorption and kinetic study.@European J. Biomed. Pharmacutical Sci., 7(6), 421-428.@Yes$Vashi, R. T. and Prajapati, N. I. (2020).@Cuminum Cyminum (Jeeru) Seeds Extract as Eco-Friendly Corrosion Inhibitor for Aluminium in HCl Solution.@Int. J. for Res. in Appl. Sci. & Engg. Tech., 8 (IV), 1708-1715.@No$Garamon, S. E. (2020).@Ziziphus Jujube leaf extract as an Eco-friendly Organic Inhibitor of Aluminum Corrosion in the Acidic Medium.@Int. J. of Green and Herbal Chem. Sec. A; 9(1), 009-015. DOI: 10.24214/IJGHC/GC/9/1 /00915@No$Onukwuli, O. D. Omotioma, M. and Obiora-Okafor, I. (2020).@Thermometric and Gravimetric Analyses of Aluminum Corrosion Control in a HCl Medium, Using Ricinus Communis Extract.@Portugaliae Electrochimica Acta., 38(1), 19-28. DOI: 10.4152/pea.202001019.@No$Onukwuli, O.D. Anadebe Valentine Chikaodili and Okafor Chizoba Sandra. (2020).@Optimum Predictionfor Inhibition Efficiency of Sapium Ellipticum Leaf Extractas Corrosion Inhibitor of Aluminum alloy (AA 3003) in Hydrochloric Acid Solution Using Electrochemical Impedance Spectroscopy and Response Surface Methodology.@Bull. Chem. Soc. Ethiop., 34(1), 175-191.@Yes$Ciobotaru, Irina-Elena Benga, Florin-Mihai and Budei, Dragos. (2020).@The Enhancement of the Corrosion Resistance of Aluminium and VTES-coated Aluminium by Using a Green Inhibitor.@U.P.B. Sci. Bull., Series B, 82(1), 179-186.@No$Sumayah Bashir, Hassane Lgaz, Ill-Min Chung & Ashish Kumar (2020).@Effective green corrosion inhibition of aluminium using analgin in acidic medium: an experimental and theoretical study.@Chemical Engi. Commu., 1-10. DOI: 10.1080/00986445.2020.1752680@No$Ill-Min Chung, Ramalingam Malathy, Seung-Hyun Kim, Kathirvel Kalaiselvi, Mayakrishnan Prabakaran & Mayakrishnan Gopiraman (2020).@Ecofriendly green inhibitor from Hemerocallis fulva against aluminum corrosion in sulphuric acid medium.@J. of Adhesion Sci. and Tech., 1-24. DOI: 10.1080/01694243.2020.1712770@Yes <#LINE#>Electro-oxidation and determination of atenolol-A review<#LINE#>R.N. @Hegde,P. @Vishwanatha,S.T. @Nandibewoor <#LINE#>75-83<#LINE#>9.ISCA-RJCS-2020-053.pdf<#LINE#>Department of Chemistry, Sri Dharmasthala Manjunatheshwara College (Autonomous), Ujire-574 240, India@Department of Chemistry, Sri Dharmasthala Manjunatheshwara College (Autonomous), Ujire-574 240, India@P.G. Department of Studies in Chemistry, Karnatak University, Dharwad-580 003, India<#LINE#>18/9/2020<#LINE#>20/12/2020<#LINE#>This mini review is dedicated to electrochemical studies on atenolol. Electrochemical methods are known for its low cost, fast response, simple and selective alternates to classical methods such as chromatographic and spectral methods. However till date, a review on electro oxidation and determination of atenolol has not been reported. Major part of this article deals with voltrammetric sensors developed using untailored and tailored electrodes of carbon for the detection of atenolol. In this mini review, amperometric, potentiometric and capillary electrophoresis methods were also discussed. The methods developed are used successfully for the detection of atenolol in different samples like urine, serum, natural water and tablet dosages.<#LINE#>Emilien G., Malotcaux J.M. and Emilion G. (1998).@Current therapeutic uses and potential of β-adrenoceptor agonists and antagonists.@Eur J Clin Pharm., 53, 389-404.@Yes$Snook C. P., Sigvaldason K. and Kristinsson J. 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(2015).@Simultaneous determination of binary mixture of amlodipine besylate and atenolol based on dual wavelengths.@Spectrochim Acta Part A: Molec Biomolec Spectr., 149, 201-207.@Yes$Sameh A., Alqurshib A., Maaboud A. and Mohamedc I. (2018).@Development of a chromatographic method with multi-criteria decision making design for simultaneous determination of nifedipine and atenolol in content uniformity testing.@Talanta, 184, 296-306.@Yes$Graham L., Cocks E. and Tanna S. (2012).@Quantitative determination of atenolol in dried blood spot samples by LC-HRMS: A potential method for assessing medication adherence.@J Chromat B., 897 72-79.@Yes$Patricia C. D. (2011).@Determination of atenolol in human urine by emission-excitation fluorescence matrices and unfolded partial least-squares with residual bilinearization.@Talanta, 85, 1526-1534.@Yes$Chetankumar K. and Kumaraswamy B.E. (2020).@Electrochemically nitric acid pre-treated glassy carbon electrode sensor for catechol and hydroquinone: A voltammetric study.@Sens Int., 1, 100001.@Yes$Hegde R.N., Shetti N.P. and Nandibewoor S.T. (2009).@Electro-oxidation and determination of trazodone at multi- walled carbon nanotube modified glassy carbon electrode.@Talanta, 79, 361-368.@Yes$Tsukasa S., Matsumoto G. and Tsukahara S. (1979).@Electrical properties of glassy-carbon electrodes.@Med Biolog Eng Comp., 17, 465-470.@No$Hegde R. N., Kumaraswamy B. E., Sherigara B. S. and Nandibewoor S. T. (2008).@Electro-oxidation of atenolol at a glassy carbon electrode.@Int J Electrochem Sc., 3, 302-304.@Yes$Goyal R. N. and Singh S. P. (2006).@Voltammetric determination of atenolol at C60-modified glassy carbon electrodes.@Talanta, 69, 932-937.@Yes$Griese S., Kampouris D. K., Kadara R. O. and Banks C. E. 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