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Analytical Letters Volume 49, 2016 - Issue 11
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NANOTECHNOLOGY

Capacitive Deionization for Desalination Using Nanostructured Electrodes

Mahendra S. GaikwadDepartment of Chemical Engineering, Indian Institute of Technology Roorkee, Roorkee, Uttarakhand, IndiaCorrespondence[email protected]
&
Chandrajit BalomajumderDepartment of Chemical Engineering, Indian Institute of Technology Roorkee, Roorkee, Uttarakhand, India
Pages 1641-1655 | Received 08 Sep 2015, Accepted 05 Nov 2015, Published online: 08 Jun 2016

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P. S. Goh, A. F. Ismail & T. Matsuura. (2018) Perspective and Roadmap of Energy-Efficient Desalination Integrated with Nanomaterials. Separation & Purification Reviews 47:2, pages 124-141.
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Articles from other publishers (23)

Feng Xiao, Yang Zhou, Hao Zhang & Yanhui Wu. (2024) Preparation of manganese-doped cubic carbon electrode based on ZIF-8 and its capacitive deionization performance for fluoride removal. Separation and Purification Technology 328, pages 125046.
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O.D. Saliu & J. Ramontja. (2023) Electrocapacitive removal of malachite green and methylene blue using green-synthesized NiBi2O4 nanospinels. Journal of Water Process Engineering 55, pages 104155.
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Subhajit Dutta, Roberto Fernández de Luis, Joanna Goscianska, Aude Demessence, Romy Ettlinger & Stefan Wuttke. (2023) Metal–Organic Frameworks for Water Desalination. Advanced Functional Materials.
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Pranav Bhagwan Pawar, Andrews Ahiabu, Madhurima Deb, Jyotiraman De, Michael J. Serpe, Sumit Saxena & Shobha Shukla. (2023) Graphene oxide electrode for unusual water softening in capacitive deionization. Materials Today: Proceedings.
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Tuong Vy T. Nguyen, Ngan Tuan Nguyen, Van Vien Nguyen, Thien Nguyen, Hoang Long Ngo, Le Thanh Nguyen Huynh, Huu Chi Le, Thanh Nhut Tran, Thi Thanh Nguyen Ho, Thanh Tung Nguyen, Viet Hai Le & Thai Hoang Nguyen. (2023) Effect of Urea Content on MCDI Performance of Waste-Corn-Stalk-Derived Cellulose Carbon Aerogel. Fibers and Polymers 24:6, pages 1929-1939.
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Taozhu Yin, Yongsheng Zhang, Duo Dong, Tao Wang & Jiawei Wang. (2022) Highly efficient capacitive removal of Cd2+ over MoS2-Carbon framework composite material in desulphurisation wastewater from coal-fired power plants. Journal of Cleaner Production 355, pages 131814.
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Kamran Salari, Payam Zarafshan, Morteza Khashehchi, Gholamreza Chegini, Hamed Etezadi, Hamed Karami, Joanna Szulżyk-Cieplak & Grzegorz Łagód. (2022) Knowledge and Technology Used in Capacitive Deionization of Water. Membranes 12:5, pages 459.
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Jian Yu, Yue Liu, Xumei Zhang, Rumeng Liu, Qi Yang, Shen Hu, Haiou Song, Pengcheng Li, Aimin Li & Shupeng Zhang. (2022) Enhanced capacitive deionization of a low-concentration brackish water with protonated carbon nitride-decorated graphene oxide electrode. Chemosphere 293, pages 133580.
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Tatjana Trunzer, Paula Fraga-García, Marc-Pascal Apollinaire Tschuschner, Dominik Voltmer & Sonja Berensmeier. (2022) The electrosorptive response of a carbon nanotube flow-through electrode in aqueous systems. Chemical Engineering Journal 428, pages 131009.
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Xiaojing Liu & Jianlong Wang. (2021) Electro-adsorption characteristics and mechanism of Sr2+ ions by capacitive deionization and CFD analysis study. Progress in Nuclear Energy 133, pages 103628.
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Joyce Elisadiki, Talam E. Kibona, Revocatus L. Machunda, Muhammad Wajid Saleem, Woo-Seung Kim & Yusufu A. C. Jande. (2019) Biomass-based carbon electrode materials for capacitive deionization: a review. Biomass Conversion and Biorefinery 10:4, pages 1327-1356.
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Mahendra S. Gaikwad, Chandrajit Balomajumder & Anand K. Tiwari. (2020) Acid treated RHWBAC electrode performance for Cr(VI) removal by capacitive deionization and CFD analysis study. Chemosphere 254, pages 126781.
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Ankit Nagar & Thalappil Pradeep. (2020) Clean Water through Nanotechnology: Needs, Gaps, and Fulfillment. ACS Nano 14:6, pages 6420-6435.
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Shen Hu, Kangjun Xie, Xumei Zhang, Shupeng Zhang, Juanjuan Gao, Haiou Song & Duozhe Chen. (2020) Significantly enhanced capacitance deionization performance by coupling activated carbon with triethyltetramine-functionalized graphene. Chemical Engineering Journal 384, pages 123317.
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G. Bharath, K. Rambabu, Fawzi Banat, Abdul Hai, Abdul Fahim Arangadi & N. Ponpandian. (2019) Enhanced electrochemical performances of peanut shell derived activated carbon and its Fe3O4 nanocomposites for capacitive deionization of Cr(VI) ions. Science of The Total Environment 691, pages 713-726.
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Bing Han, Gong Cheng, Yunkai Wang & Xiangke Wang. (2019) Structure and functionality design of novel carbon and faradaic electrode materials for high-performance capacitive deionization. Chemical Engineering Journal 360, pages 364-384.
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Leonard D. Tijing, Minwei Yao, Jiawei Ren, Chan-Hee Park, Cheol Sang Kim & Ho Kyong Shon. 2019. Water and Wastewater Treatment Technologies. Water and Wastewater Treatment Technologies 431 468 .
Shenxu Bao, Jihua Duan & Yimin Zhang. (2018) Characteristics of Nitric Acid-Modified Carbon Nanotubes and Desalination Performance in Capacitive Deionization. Chemical Engineering & Technology 41:9, pages 1793-1799.
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Mahendra S. Gaikwad & Chandrajit Balomajumder. (2018) Removal of Cr(VI) and fluoride by membrane capacitive deionization with nanoporous and microporous Limonia acidissima (wood apple) shell activated carbon electrode. Separation and Purification Technology 195, pages 305-313.
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Zhumei Sun, Liyuan Chai, Mingshi Liu, Yude Shu, Qingzhu Li, Yunyan Wang & Dingfan Qiu. (2018) Effect of the electronegativity on the electrosorption selectivity of anions during capacitive deionization. Chemosphere 195, pages 282-290.
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Mahendra S. Gaikwad & Chandrajit Balomajumder. (2017) Simultaneous electrosorptive removal of chromium(VI) and fluoride ions by capacitive deionization (CDI): Multicomponent isotherm modeling and kinetic study. Separation and Purification Technology 186, pages 272-281.
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Mahendra S. Gaikwad & Chandrajit Balomajumder. (2017) Tea waste biomass activated carbon electrode for simultaneous removal of Cr(VI) and fluoride by capacitive deionization. Chemosphere 184, pages 1141-1149.
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Chen-Shiuan Fan, Sofia Ya Hsuan Liou & Chia-Hung Hou. (2017) Capacitive deionization of arsenic-contaminated groundwater in a single-pass mode. Chemosphere 184, pages 924-931.
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