Abstract Alkaline hydrogen evolution reaction (HER) has great potential in practical hydrogen production but is still limited by the lack of active and stable electrocatalysts.
Research gap analysis derived from 3 chemistry papers in our local library.
The gap
Abstract Alkaline hydrogen evolution reaction (HER) has great potential in practical hydrogen production but is still limited by the lack of active and stable electrocatalysts.
Consensus across the literature
Clustered from 3 gap mentions across 3 papers via embedding cosine ≥ 0.62.
Research trend
Established — well-defined area with open sub-problems.
Supporting evidence — 3 representative gaps
- Unlocking Efficient Alkaline Hydrogen Evolution Through Ru–Sn Dual Metal Sites and a Novel Hydroxyl Spillover Effect (2024) · doi
Abstract Alkaline hydrogen evolution reaction (HER) has great potential in practical hydrogen production but is still limited by the lack of active and stable electrocatalysts.
Keywords: hydrogen abstract alkaline evolution reaction great potential practical production still limited lack active stable electrocatalysts - Sequential oxygen evolution and decoupled water splitting via electrochemical redox reaction of nickel hydroxides (2024) · doi
Alkaline water electrolysis is a promising low-cost strategy for clean and sustainable hydrogen production but is largely limited by the sluggish anodic oxygen evolution reaction and the challenges in maintaining adequate separation between H2 and O2.
Keywords: alkaline water electrolysis promising cost strategy clean sustainable hydrogen production largely limited sluggish anodic oxygen - Enhancing H<sub>2</sub>O<sub>2</sub> Electrosynthesis at Industrial-Relevant Current in Acidic Media on Diatomic Cobalt Sites (2024) · doi
Electrocatalytic synthesis of hydrogen peroxide (H2O2) in acidic media is an efficient and eco-friendly approach to produce inherently stable H2O2, but limited by the lack of selective and stable catalysts under industrial-relevant current densities.
Keywords: stable electrocatalytic synthesis hydrogen peroxide acidic media efficient friendly approach produce inherently limited lack selective
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