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	Application of mesopores copper hexacyanoferrate (II) nanomaterials for cesium adsorption Nguyen Dinh Trung, Ning Ping, Ho Kim Dan Environmental Engineering Research 2023;28(6):220389 Published online April 2, 2023 doi: https://doi.org/10.4491/eer.2022.389

	The sequential adsorption of gold, copper, silver, and palladium from pyrolysis solid product leach solution of waste PCBs Ece Yapıcı, Aysun Özkan, Zerrin Günkaya, Müfide Banar Environmental Engineering Research 2022;27(6):210404 Published online December 18, 2021 doi: https://doi.org/10.4491/eer.2021.404 Web of Science 1

	Application of copper sulfate based fenton-like catalyst in degradation of quinoline Zhaojie Jiao, Haifeng Gong, Ye Peng, Guilin Zhou, Xianming Zhang, Xu Gao, Yunqi Liu Environmental Engineering Research 2022;27(5):210305 Published online September 23, 2021 doi: https://doi.org/10.4491/eer.2021.305 Web of Science 1 Crossref 1

	Enhancement of electrokinetic remediation of lead and copper contaminated soil by combination of multiple modified electrolyte conditioning techniques Oualid Mohamed Boulakradeche, Ouarda Merdoud, Djamal Eddine Akretche Environmental Engineering Research 2022;27(4):210167 Published online June 30, 2021 doi: https://doi.org/10.4491/eer.2021.167 Web of Science 6 Crossref 7

	Conversion of coconut waste into cost effective adsorbent for Cu(II) and Ni(II) removal from aqueous solutions Abdul Rahman Abdul Rahim, Iswarya , Khairiraihanna Johari, Nasir Shehzad, Norasikin Saman, Hanapi Mat Environmental Engineering Research 2021;26(4):200250 Published online September 10, 2020 doi: https://doi.org/10.4491/eer.2020.250 Web of Science 9 Crossref 9

	Time series analysis for determining ecologically acceptable Cu concentration from species sensitivity distribution with biotic ligand models in soil pore water Buyun Jeong, Jinsung An, Kyoungphile Nam Environmental Engineering Research 2021;26(2):200021 Published online April 3, 2020 doi: https://doi.org/10.4491/eer.2020.021 Web of Science 1 Crossref 1

	Three-dimensional double-network hydrogels of graphene oxide, alginate, and polyacrylonitrile for copper removal from aqueous solution Jung-Weon Choi, Hee Jin Kim, Hayeon Ryu, Sanghwa Oh, Sang-June Choi Environmental Engineering Research 2020;25(6):924-929. Published online December 17, 2019 doi: https://doi.org/10.4491/eer.2019.442 Web of Science 15 Crossref 13

	Comparative analysis for the corrosion susceptibility of copper alloys in sandy soil Mouhsine Galai, Hanane Benqlilou, Mohamed Ebn Touhami, Tounsi Belhaj, Khalifa Berrami, Hassan El Kafssaoui Environmental Engineering Research 2018;23(2):164-174. Published online January 18, 2018 doi: https://doi.org/10.4491/eer.2017.077 Web of Science 21 Crossref 16

	Application of brass scrubber filter with copper hydroxide nanocomposite structure for phosphate removal Ki-Ho Hong, In-Sang Yoo, Sae-Hoon Kim, Duk Chang, Young Sunwoo, Dae-Gun Kim Environmental Engineering Research 2015;20(2):199-204. Published online May 22, 2015 doi: https://doi.org/10.4491/eer.2014.062 Web of Science 4 Crossref 3

	Removal of Cd(II) and Cu(II) from Aqueous Solution by Agro Biomass: Equilibrium, Kinetic and Thermodynamic Studies Desireddy Harikishore Kumar Re, Seung-Mok Lee, Kalluru Seshaiah Environmental Engineering Research 2012;17(3):125-132. Published online September 30, 2012 doi: https://doi.org/10.4491/eer.2012.17.3.125 Crossref 22

	The Effect of Corrosion Inhibitor on Corrosion Control of Copper Pipe and Green Water Problem Ji Eun Lee, Hyun Dong Lee, Gi Eun Kim Environmental Engineering Research 2012;17(1):17-25. Published online March 30, 2012 doi: https://doi.org/10.4491/eer.2012.17.1.017 Crossref 9

	Copper and Lead Concentrations in Water, Sediments, and Tissues of Asian Clams (Corbicula sp.) in Bung Boraphet Reservoir in Northern Thailand (2008) Tinnapan Netpae, Chitchol Phalaraksh Environmental Engineering Research 2010;15(1):35-40. Published online March 30, 2010 doi: https://doi.org/10.4491/eer.2010.15.1.035

	SURFACE COMPLEXATION MODELS FOR COPPER(II) ADSORPTION ON KAOLINITE Soo Bin Yim Environmental Engineering Research 2003;8(2):91-97. Published online March 30, 2003 doi: https://doi.org/10.4491/eer.2003.8.2.091 Crossref 2

	REMOVAL OF COPPER(II) ION BY KAOLIN IN AQUEOUS SOLUTIONS Moon-Sun Kim, Jaygwan G. Chung Environmental Engineering Research 2002;7(1):49-57. Published online March 30, 2002 doi: https://doi.org/10.4491/eer.2002.7.1.049 Crossref 9

	ACUTE TOXICITY OF COPPER IN FLOW-THROUGH SYSTEM WITH SUSPENDED PARTICLES Sang Don Kim Environmental Engineering Research 2001;6(3):131-138. Published online September 30, 2001

	Biosorption of Copper and Zinc by Biomass of Marine Brown Algae in Cheju Island Sangkyu Kam, Donghwan Lee, Mingyu Lee Environmental Engineering Research 1997;2(3):181-190. Published online September 30, 1997

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