TY - JOUR
T1 - Hydrophilic nano-porous carbon derived from egg whites for highly efficient capacitive deionization
AU - Zhang, Runan
AU - Gu, Xiao
AU - Liu, Yihan
AU - Hua, Di
AU - Shao, Meng
AU - Gu, Zhida
AU - Wu, Jiansheng
AU - Zheng, Bing
AU - Zhang, Weina
AU - Li, Sheng
AU - Huo, Fengwei
AU - Huang, Wei
N1 - Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2020/5/15
Y1 - 2020/5/15
N2 - The design and preparation of electrode material with advanced desalination properties are key factors to the capacitive deionization (CDI) technique. Herein, a nitrogen (N) doped porous carbon has been successfully fabricated using whipped egg foam as precursor. It possesses a unique micro-mesopore structure with ultra-high specific surface area of 3277.96 m2 g−1, and abundant active adsorption sites from the surface doping. These features could not only provide hydrophilic property, but also good electronic/ions conductivities during the deionization processes, facilitating the pseudo-capacitance and total CDI performance. As a result, the obtained electrode material could deliver a high salt adsorption capacity of 26.67 mg g−1 and fast salt adsorption rate in 500 mg L−1 NaCl solution at an applied voltage of 1.2 V, which could be considered a feasible electrode material for CDI.
AB - The design and preparation of electrode material with advanced desalination properties are key factors to the capacitive deionization (CDI) technique. Herein, a nitrogen (N) doped porous carbon has been successfully fabricated using whipped egg foam as precursor. It possesses a unique micro-mesopore structure with ultra-high specific surface area of 3277.96 m2 g−1, and abundant active adsorption sites from the surface doping. These features could not only provide hydrophilic property, but also good electronic/ions conductivities during the deionization processes, facilitating the pseudo-capacitance and total CDI performance. As a result, the obtained electrode material could deliver a high salt adsorption capacity of 26.67 mg g−1 and fast salt adsorption rate in 500 mg L−1 NaCl solution at an applied voltage of 1.2 V, which could be considered a feasible electrode material for CDI.
KW - Bio-char
KW - Capacitive deionization
KW - Micro-mesopore structure
KW - Nitrogen (N) doping
KW - Ultra-high specific surface area
UR - http://www.scopus.com/inward/record.url?scp=85079354470&partnerID=8YFLogxK
U2 - 10.1016/j.apsusc.2020.145740
DO - 10.1016/j.apsusc.2020.145740
M3 - 文章
AN - SCOPUS:85079354470
SN - 0169-4332
VL - 512
JO - Applied Surface Science
JF - Applied Surface Science
M1 - 145740
ER -