Light Enhanced Blue Energy Generation using MoS$_2$ Nanopores
Michael Graf, Martina Lihter, Dmitrii Unuchek, Aditya Sarathy,, Jean-Pierre Leburton, Andras Kis, Aleksandra Radenovic

TL;DR
This paper demonstrates that light can modulate MoS$_2$ nanopores to significantly enhance ion selectivity and surface conductance, thereby improving blue energy generation through osmotic processes.
Contribution
It introduces a novel light-controlled MoS$_2$ membrane system that increases ion selectivity and conductance, boosting osmotic energy conversion efficiency.
Findings
Light increases ion selectivity by a factor of 5.
Surface charge effects dominate in small nanopores.
Enhanced surface conductance improves osmotic current.
Abstract
Blue energy relies on the chemical potential difference generated between solutions of high and low ionic strength and would provide a sun-and-wind independent energy source at estuaries around the world. Converting this osmotic energy through reverse-electrodialysis relies on ion-selective membranes. A novel generation of these membranes is based on atomically thin MoS membranes to decrease the resistance to current flow to increase power output. By modulating the surface charge by light we are able to raise the ion selectivity of the membrane by a factor of 5 while staying at a neutral pH. Furthermore, we find that the behavior of small nanopores is dominated by surface conductance. We introduce a formalism based on the Dukhin number to quantify these effects in the case of a concentration gradient system. As a consequence, the charges created by light illumination provoke two…
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