期刊
CELL REPORTS PHYSICAL SCIENCE
卷 3, 期 10, 页码 -出版社
CELL PRESS
DOI: 10.1016/j.xcrp.2022.101065
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资金
- Japan Society for the Promotion of Science (JSPS) KAKENHI [22H01926, 22K04893]
This study evaluates the practical feasibility of the ultrathin nanopore membrane for energy conversion efficiency. The results show that single pores exhibit quasi-perfect cation selectivity, and integrating multiple pores in parallel can yield higher energy. However, excessive porosity leads to decreased energy conversion efficiency. These findings provide guidance for designing highly efficient nanopore membrane osmotic power generators.
Ultrathin nanopore membrane is an emerging energy harvesting system capable of generating electricity from salinity gradients. Here, we report on the evaluation of its practical feasibility by exploring the energy conversion efficiency of single to densely packed multi-pores in a thin silicon nitride. The ionic current characteristics of single pores reveal a quasi-perfect cation selectivity when shrinking the diameter to 20 nm. The perm-selective nanopore is shown to yield osmotic power of 160 pW under a 1,000-fold transmembrane salt concentration difference. Meanwhile, whereas larger energy is gained by parallelly integrating multiple pores, excessive porosity also led to degraded energy conversion efficiency, thereby demonstrating an optimal power density of 100 W per square meter for 100 nm-sized multi-nanopores with a grid spacing of 1 mu m. The present findings offer a guide to design highly efficient nanopore membrane osmotic power generators.
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