| Literature DB >> 33225585 |
Lihi Amit1, Danny Naar1, Robert Gloukhovski1, Gerardo Jose la O'2, Matthew E Suss1,3.
Abstract
Widespread adoption of redox flow batteries (RFBs) for renewable energy storage is inhibited by a relatively high cost of storage. This is due largely to typical RFBs requiring two flows, two external tanks, and expensive ion-exchange membranes. Here, we propose a potentially inexpensive Zn-Br2 RFB which is membraneless and requires only a single flow. The flow is an emulsion consisting of a continuous, Br2 -poor aqueous phase and a dispersed, Br2 -rich polybromide phase, pumped through the channel separating anode and cathode. With our prototype cell, we explore the effect of polybromide-phase volume fraction and Br2 concentration on cell performance and plating efficiencies. We demonstrate high discharge currents of up to 270 mA/cm2 , plating efficiencies up to 88 %, and dendriteless plating up to the highest Zn loading investigated of 250 mAh/cm2 . We provide mechanistic insights into cell behavior and elucidate paths towards unlocking ultra-low-cost single-flow RFBs with multiphase flow.Entities:
Keywords: Electrochemistry; Energy storage; Flow batteries; Membraneless cell; Zinc-bromine battery
Year: 2020 PMID: 33225585 DOI: 10.1002/cssc.202002135
Source DB: PubMed Journal: ChemSusChem ISSN: 1864-5631 Impact factor: 8.928