Sunsun Li
- Сўнгги маълум муассаса:
- Nanjing Tech University
- ORCID:
- 0000-0003-3581-8358
4
h-индекс
0
i10-индекси
43
Иқтибослар
21
Асарлар
Вақт бўйича
Вақт бўйича таҳлил
Иқтибос шарҳи
Йиллар бўйича нашрлар (устун) ва иқтибослар (чизиқ)
- Нашрлар
- Иқтибослар
Иқтибос тарихи
Нашр тарихи
h-индекс эволюцияси
Йиллар бўйича жамланган h-индекс
Энг кўп иқтибос қилинган асарлар
- Constructing High‐Performance Solar Cells and Photodetectors with a Doping‐Free Polythiophene Hole Transport Material20232 иқтибос
- The Role of Solution Aggregation Property toward High‐Efficiency Non‐Fullerene Organic Photovoltaic Cells20242 иқтибос
- Advances and Future Prospects of Wearable Textile‐ and Fiber‐Based Solar Cells20232 иқтибос
- Eco-friendly and ultrathin solar cells featuring nanocrystals: advances and perspectives20231 иқтибос
- Unraveling Green-Solvent-Driven Morphology Evolution in an Unconventional Small-Molecule Donor/Polymer Acceptor Solar Cell with over 13% Efficiency20261 иқтибос
- A Dual‐Polythiophene Blending Strategy to Reduce the Efficiency‐Stability‐Cost Gap of Solar Cells20231 иқтибос
- Cost-effective high-performance quantum dot photodetectors with dual polythiophene hole transporting layers20241 иқтибос
- Achieving High‐Efficiency and Thick‐Film‐Insensitive Organic Solar Cells with a Functional Aid <sup>†</sup>20250 иқтибос
- Self-assembled monolayers as hole transport layers in organic solar cells: progress in molecular design and device engineering20250 иқтибос
- Kinetically regulated morphology via non-halogen co-solvent engineering enables 20% efficiency organic solar cells20260 иқтибос