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Energy-saving hydrogen production by chlorine-free hybrid seawater splitting coupling hydrazine degradation

Chemistry

Energy-saving hydrogen production by chlorine-free hybrid seawater splitting coupling hydrazine degradation

F. Sun, J. Qin, et al.

Discover a groundbreaking approach to carbon-neutral hydrogen production through chlorine-free seawater electrolysis, as demonstrated by researchers Fu Sun, Jingshan Qin, Zhiyu Wang, Mengzhou Yu, Xianhong Wu, Xiaoming Sun, and Jieshan Qiu. This innovative study utilizes hybrid seawater splitting coupled with hydrazine degradation, producing hydrogen efficiently while minimizing energy costs and harmful byproducts.... show more
Abstract
Seawater electrolysis offers a pathway to carbon-neutral, grid-scale hydrogen without freshwater reliance but faces high energy costs and detrimental chlorine chemistry. The authors demonstrate chlorine-free hydrogen production by hybrid seawater splitting coupled with hydrazine degradation. Using NiCo/MXene-based electrodes, hydrogen is produced at 9.2 mol h⁻¹ gcat⁻¹ with electricity expense of 2.75 kWh per m³ H₂ at 500 mA cm⁻², representing a 48% lower energy equivalent input than commercial alkaline water electrolysis. Low cell voltages avoid chlorine electrochemistry without anode protection, regardless of Cl⁻ crossover. The electrolyzer also degrades hydrazine rapidly to ~3 ppb residual. Self-powered operation is realized by integrating low-voltage direct hydrazine fuel cells or solar cells, enabling efficient ocean-resource conversion to hydrogen while removing pollutants.
Publisher
Nature Communications
Published On
Jul 07, 2021
Authors
Fu Sun, Jingshan Qin, Zhiyu Wang, Mengzhou Yu, Xianhong Wu, Xiaoming Sun, Jieshan Qiu
DOI
https://doi.org/10.1038/s41467-021-24529-3
Tags
seawater electrolysis
hydrogen production
chlorine-free
hydrazine degradation
energy efficiency
NiCo/MXene electrodes

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