TY - JOUR
TI - Engineered PES/SPES nanochannel membrane for salinity gradient power generation
AU - Huang, X
AU - Zhang, Z
AU - Kong, X
AU - Sun, Y
AU - Zhu, C
AU - Liu, P
AU - Pang, J
AU - Jiang, L
AU - Wen, L
T2 - Nano Energy
AB - Nature is the source of human being's creativity and always inspires people to break through the existing bottleneck of science and technology. Electric eel (Electrophorus electricus) relying on ion channel in electrocyte can convert salinity gradient energy to electricity power with potentials of ~600 V to stun prey and ward off predators. Inspired by biological ion channels, artificial nanochannels have been extensively explored to mimic the control of ion flow in nanosize confinement space and apply in salinity gradient power generation. In this paper, polyether sulfone/sulfonated polyether sulfone (PES/SPES) membranes with large amount of nanochannels are constructed by using phase separation method to be applied in the salinity gradient power generation field. The content of SPES, the concentration of casting solution, and the thickness of prefabricated membrane were taken into account to control the structural and surface charge distribution of membrane. The prepared serials PES/SPES membrane with nanopore structure display much proper cation selectivity, excellent ion conductivity and output power density (reach up to 2.48 W/m2) for salinity gradient power generation. In addition, the proposed membrane with low cost and easy casting process shows great potential for the practical application in salinity gradient power generation.
DA - 2019/05//
PY - 2019
VL - 59
SP - 354
EP - 362
UR - https://www.sciencedirect.com/science/article/pii/S2211285519301697
DO - 10.1016/j.nanoen.2019.02.056
LA - English
KW - Salinity Gradient
KW - Structural
ER -