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chemistry2 papersavg year 2026quality 4/5

industrial stability scale cycles demonstrates

Research gap analysis derived from 2 chemistry papers in our local library.

The gap

While the study demonstrates recyclability over ten consecutive cycles, long-term stability and performance over extended periods or in industrial-scale operations have not been investigated.; Long-term stability under industrial conditions and at large overpotentials has not been fully explored beyond the stability curves shown.

Research trend

Emerging — attention growing, methods still coalescing.

Supporting evidence — 2 representative gaps

  • Lu2CrMnO6–Pm-g-C3N4 supported dendritic nanosilica as a recyclable green catalyst for eco-friendly synthesis of N-[(2-hydroxyethoxy)carbonyl] glycine from carbon dioxide (2026) · doi

    While the study demonstrates recyclability over ten consecutive cycles, long-term stability and performance over extended periods or in industrial-scale operations have not been investigated.

    Keywords: demonstrates recyclability consecutive cycles long term stability performance extended periods industrial scale operations investigated
  • Indium-based Metal Organic Frameworks (In-MOFs) for Electrochemical Reduction of Carbon Dioxide to Formate (2026) · doi

    Long-term stability under industrial conditions and at large overpotentials has not been fully explored beyond the stability curves shown.

    Keywords: stability long term industrial conditions large overpotentials fully explored beyond curves

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