physics3 papersavg year 2024quality 6/5weak evidence

Abstract Oxygen evolution reaction (OER) is critical to renewable energy conversion technologies, but the structure-activity relationships and underlying catalytic mechanisms in catalysts are not full

Research gap analysis derived from 3 physics papers in our local library.

The gap

Abstract Oxygen evolution reaction (OER) is critical to renewable energy conversion technologies, but the structure-activity relationships and underlying catalytic mechanisms in catalysts are not fully understood.

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

  • Lattice oxygen activation and local electric field enhancement by co-doping Fe and F in CoO nanoneedle arrays for industrial electrocatalytic water oxidation (2024) · doi

    Abstract Oxygen evolution reaction (OER) is critical to renewable energy conversion technologies, but the structure-activity relationships and underlying catalytic mechanisms in catalysts are not fully understood.

    Keywords: abstract oxygen evolution reaction critical renewable energy conversion technologies structure activity relationships underlying catalytic mechanisms
  • Phase Engineering Facilitates O–O Coupling via Lattice Oxygen Mechanism for Enhanced Oxygen Evolution on Nickel–Iron Phosphide (2024) · doi

    Nickel–iron-based catalysts are recognized for their high efficiency in the oxygen evolution reaction (OER) under alkaline conditions, yet the underlying mechanisms that drive their superior performance remain unclear.

    Keywords: nickel iron based catalysts recognized high efficiency oxygen evolution reaction alkaline conditions underlying mechanisms drive
  • Enhancing Oxygen Evolution Reaction via a Surface Reconstruction-Induced Lattice Oxygen Mechanism (2024) · doi

    Particularly, inducing a surface structure reconstruction following the lattice oxygen oxidation mechanism (LOM), which can reduce the overpotential in oxygen evolution reaction (OER) catalysts, has not been extensively investigated.

    Keywords: oxygen particularly inducing surface structure reconstruction following lattice oxidation mechanism reduce overpotential evolution reaction catalysts

Explore this gap further

Search “Abstract Oxygen evolution reaction (OER) is critical to renewable energy conversion technologies, but the structure-activity relationships and underlying catalytic mechanisms in catalysts are not full” across open scholarly engines for the latest related literature.

Working on this gap? Publish with us.

Science AI Journal reviews manuscripts in under 15 minutes with 8 specialised AI reviewers calibrated on 23,000+ real peer reviews. Open access, CC BY 4.0.

Related gaps in Physics

Command palette

Jump anywhere, run any action.