公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2021 | The effect of redox potential on the removal characteristic of divalent cations during activated carbon-based capacitive deionization | Lee N; Liu M.-L; Wu M.-C; Chen T.-H; Hou C.-H.; CHIA-HUNG HOU | Chemosphere | 21 | | |
2021 | Effective electrochemically controlled removal of fluoride ions using electrodeposited polyaniline-carbon nanotube composite electrodes | Wu, J.-C.; Chen, S.S.; Yu, T.-C.; Wu, K.C.-W.; CHIA-HUNG HOU ; KEVIN CHIA-WEN WU | Separation and Purification Technology | 27 | 25 | |
2014 | Electro-enhanced removal of copper ions from aqueous solutions by capacitive deionization | Huang, S.-Y.; Fan, C.-S.; Hou, C.-H.; CHIA-HUNG HOU | Journal of Hazardous Materials | | | |
2016 | Electro-removal of arsenic(III) and arsenic(V) from aqueous solutions by capacitive deionization | Fan, C.-S.; Tseng, S.-C.; Li, K.-C.; Hou, C.-H.; CHIA-HUNG HOU | Journal of Hazardous Materials | | | |
2022 | Electrochemical membrane technology for environmental remediation | Kong, Xiangtong; Liu, Lihu; Zhang, Changyong; CHIA-HUNG HOU ; Zhang, Zhong; Ma, Jinxing | Electrochemical Membrane Technology for Water and Wastewater Treatment | 0 | 0 | |
2016 | Electrodeposited manganese dioxide/activated carbon composite as a high-performance electrode material for capacitive deionization | Liu, Y.-H.; Hsi, H.-C.; Li, K.-C.; CHIA-HUNG HOU ; Hsi, H.-C | ACS Sustainable Chemistry and Engineering | 115 | 104 | |
2006 | Electrosorption capacitance of nanostructured carbon-based materials | Hou, C.-H.; Liang, C.; Yiacoumi, S.; Dai, S.; Tsouris, C.; CHIA-HUNG HOU | Journal of Colloid and Interface Science | | | |
2008 | Electrosorption selectivity of ions from mixtures of electrolytes inside nanopores | Hou, C.-H.; Taboada-Serrano, P.; Yiacoumi, S.; Tsouris, C.; CHIA-HUNG HOU | Journal of Chemical Physics | | | |
2022 | Engineered biochar prepared using a self-template coupled with physicochemical activation for highly efficient adsorption of crystal violet | Cuong, Dinh Viet; CHIA-HUNG HOU | Journal of the Taiwan Institute of Chemical Engineers | 7 | 6 | |
2020 | Enhanced desalination of electrospun activated carbon fibers with controlled pore structures in the electrosorption process | Liu, N.-L.; Chen, L.-I.; Tsai, S.-W.; Hou, C.-H.; CHIA-HUNG HOU | Environmental Science: Water Research and Technology | | | |
2019 | Enhanced desalination performance via mixed capacitive-Faradaic ion storage using RuO<inf>2</inf>-activated carbon composite electrodes | Ma, X.; Chen, Y.-A.; Zhou, K.; Wu, P.-C.; Hou, C.-H.; CHIA-HUNG HOU | Electrochimica Acta | | | |
2021 | Enhanced electrosorption selectivity of phosphate using an anion-exchange resin-coated activated carbon electrode | Shen Y.-Y; Hsu C.-C; Tsai S.-W; Hou C.-H.; CHIA-HUNG HOU | Journal of Colloid and Interface Science | | | |
2019 | Enhancing the water desalination and electricity generation of a microbial desalination cell with a three-dimensional macroporous carbon nanotube-chitosan sponge anode | Ma, C.-Y.; Hou, C.-H.; CHIA-HUNG HOU | Science of the Total Environment | | | |
2020 | Exploring the electrosorption selectivity and recovery of indium ions with capacitive deionization in acidic solution | Shen, Y.-Y.; Wu, S.-W.; Hou, C.-H.; CHIA-HUNG HOU | Journal of Colloid and Interface Science | 16 | | |
2021 | Exploring the electrosorption selectivity of nitrate over chloride in capacitive deionization (CDI) and membrane capacitive deionization (MCDI) | Tsai, S.-W.; Hackl, L.; Kumar, A.; Hou, C.-H.; CHIA-HUNG HOU | Desalination | | | |
2023 | Harnessing in-situ electrocatalytic oxidation with a cobalt oxide decorated nanocomposite electrode for efficient arsenic removal in capacitive deionization | Wu, Po Chang; Viet Cuong, Dinh; Wu, Jhen Cih; Ya Hsuan Liou, Sofia; CHIA-HUNG HOU | Chemical Engineering Journal | 0 | 0 | |
2020 | Hierarchical porous carbon derived from activated biochar as an eco-friendly electrode for the electrosorption of inorganic ions | Cuong, D.V.; Wu, P.-C.; Liu, N.-L.; Hou, C.-H.; CHIA-HUNG HOU | Separation and Purification Technology | | | |
2018 | High performance capacitive deionization using modified ZIF-8-derived, N-doped porous carbon with improved conductivity | Li, Y.; Kim, J.; Wang, J.; Liu, N.-L.; Bando, Y.; Alshehri, A.A.; Yamauchi, Y.; CHIA-HUNG HOU ; KEVIN CHIA-WEN WU | Nanoscale | 90 | 87 | |
2018 | Highly porous activated carbon with multi-channeled structure derived from loofa sponge as a capacitive electrode material for the deionization of brackish water | Feng, C.; Chen, Y.-A.; CHANG-PING YU ; CHIA-HUNG HOU | Chemosphere | 55 | 48 | |
2015 | Highly porous activated carbons from resource-recovered Leucaena leucocephala wood as capacitive deionization electrodes | Hou, C.-H. ; Liu, N.-L.; Hsi, H.-C. | Chemosphere | 60 | 53 | |