Paper Publications
- [1] Weihua Tang,YL,ZJB,Fluorinated Naphthalene Diimides as Buried Electron Transport Materials Achieve Over 23% Efficient Perovskite Solar Cells.ADVANCED SCIENCE,2024,
- [2] Weihua Tang,In situ Blending For Co-Deposition of Electron Transport and Perovskite Layers Enables Over 24% Efficiency Stable Inverted Solar Cells.Advanced Materials,
- [3] Weihua Tang,Freestanding MXene-Scaffolded Film Cathodes Enable High-Performance Flexible Zinc-Ion Batteries.ADVANCED FUNCTIONAL MATERIALS,2024,
- [4] Weihua Tang,ZJB,Conjugated Phosphonic Acids Enable Robust Hole Transport Layers for Efficient and Intrinsically Stable Perovskite Solar Cells.ADVANCED MATERIALS,2024,
- [5] Weihua Tang,Achieving a high open-circuit voltage of 1.339 V in 1.77 eV wide-bandgap perovskite solar cells via self-assembled monolayers.ENERGY & ENVIRONMENTAL SCIENCE,2023,17(1):202-209.
- [6] Weihua Tang,Azo-Linkage Redox Metal-Organic Framework Incorporating Carbon Nanotubes for High-Performance Aqueous Energy Storage.MOLECULES,2022,28(22):
- [7] Weihua Tang,Emerging high-entropy material electrodes for metal-ion batteries.SUSMAT,2024,
- [8] Weihua Tang.Versatile Self-Assembled Hole Transport Monolayer Enables Facile Processing Organic Solar Cells over 18% Efficiency with Good Generality.Advanced Functional Materials,33(41):
- [9] Weihua Tang.Versatile Self-Assembled Molecule Enables High-Efficiency Wide-Bandgap Perovskite Solar Cells and Organic Solar Cells.ADVANCED ENERGY MATERIALS,2022,13(23):
- [10] Weihua Tang.Dynamic self-assembly of small molecules enables the spontaneous fabrication of hole conductors at perovskite/electrode interfaces for over 22% stable inverted perovskite solar cells.Materials Horizons,10(7):2609-2617.
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