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Authors

Haitao Lin

Last known institution:
Yuxi Normal University
ORCID:
0000-0001-8717-7850
3
h-index
1
i10-index
35
Citations
12
Works
Trends over time

Performance over time

Citation overview

Publications (bars) and citations (line) by year

  • Publications
  • Citations
0134505101520202220232024202520262022: Publications 2, Citations 02023: Publications 2, Citations 22024: Publications 1, Citations 72025: Publications 5, Citations 152026: Publications 2, Citations 11

Citation history

05101520202220232024202520262022: Citations 02023: Citations 22024: Citations 72025: Citations 152026: Citations 11

Publication history

01345202220232024202520262022: Publications 22023: Publications 22024: Publications 12025: Publications 52026: Publications 2

h-index evolution

Cumulative h-index by year

01345202220232024202520262022: h-index 02023: h-index 12024: h-index 22025: h-index 32026: h-index 3

Most-cited works

  1. Boosting photocatalytic H2O2 production and non-biodegradable ofloxacin removal via a novel Ti3C2 MXene nanosheet-supported BiVO4/InVO4 Z-scheme heterojunction: Optimization and mechanism insights202511 citations
  2. Synthesis of a novel Cu₂O/BiFeO₃@Ti₃C₂ MXene Z-scheme heterojunction for enhanced photocatalytic wastewater treatment and N₂ fixation: Mechanistic insights and optimization20253 citations
  3. Synthesis of a novel Ti3C2 MXene–based nanocomposite for photocatalytic wastewater treatment and CO2 conversion: DFT analysis, mechanistic insights, and process optimization20252 citations
  4. Dual-functional Z-scheme MgIn2S4/WO3 heterojunction for visible-light CO2 reduction and antibiotic degradation: Unraveling charge transfer and reaction mechanisms20262 citations
  5. Designing a novel Ti3C2 MXene-bridged Z-scheme photocatalyst for effective H2 generation and removal of non-biodegradable norfloxacin: Optimization and mechanism insights20252 citations
  6. Corrigendum to “Dual-functional Z-scheme MgIn2S4/WO3 heterojunction for visible-light CO2 reduction and antibiotic degradation: Unraveling charge transfer and reaction mechanisms”. [Sep. Purif. Technol. 390, 136908]20261 citations
  7. Engineering a novel BiVO4-CuFe2O4@MXene heterojunction with boosted photocatalytic activity: Visible-light-driven enrofloxacin degradation from polluted water and H2 production20250 citations