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Canada-0-RECUPERATION Azienda Directories
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Azienda News:
- A donor–acceptor zwitterion as a self-assembled hole-selective layer . . .
As a result, when PyPs served as an HSL in TPSCs, the PyPs-based device reached a champion efficiency of 12 18%, which is much higher than those of Py-based (10 22%) and pure ITO-based (8 60%) devices
- A donor-acceptor zwitterion as a self-assembled hole-selective layer . . .
A donor-acceptor zwitterion as a self-assembled hole-selective layer for highly efficient tin-based perovskite solar cells Chem Sci 2025 Dec 29;17 (8):4268-4276 doi: 10 1039 d5sc08439c eCollection 2026 Feb 25
- Donor-Acceptor Zwitterion as Self-Assembled Hole-Selective Layer for . . .
Chemical Science January 2026 DOI: 10 1039 D5SC08439C License CC BY 3 0 Authors: Qianqian Chang
- RSC Publishing
A1 - Lin, Jingying A1 - Lin, Yuan A1 - Li, Xiao-Zhen A1 - An, Mingwei A1 - Cao, Yu A1 - Tian, Chengbo A1 - Wang, Yang Y1 - 2026 SP - EP - JF - Chemical Science JO - Chem Sci VL - IS - PB - The Royal Society of Chemistry SN - 2041-6520 DO - 10 1039 D5SC08439C M3 - 10 1039 D5SC08439C UR - http: dx doi org 10 1039 D5SC08439C
- A donor–acceptor zwitterion as a self-assembled hole-selective layer . . .
DOI: 10 1039 d5sc08439c Corpus ID: 284426196 A donor–acceptor zwitterion as a self-assembled hole-selective layer for highly efficient tin-based perovskite solar cells Qianqian Chang, Guosen Zhang, +11 authors Yang Wang Published in Chemical Science 29 December 2025 Materials Science, Engineering, Chemistry
- A donor acceptor zwitterion as a self-assembled hole-selective layer . . .
Metal halide perovskites have attracted enormous interest from both academics and industry for next-generation photovoltaic technologies, thanks to their solution-processability, low cost and defect tolerance 1–4 However, the toxicity of lead ions causes environmental hazards and health concerns, which impede their commercialization 5,6 To mitigate this issue, tin-based perovskites have emerged as compelling lead-free alternatives, exhibiting advantageous optoelectronic properties: optimal Shockley–Queisser bandgaps, high charge-carrier mobilities and low exciton binding energies 7–9 Nevertheless, tin (Sn)-based perovskite solar cells (TPSCs) underperform compared to their lead counterparts, mainly because of the uncontrollable crystallization process and unstable interfacial properties, which include the facile oxidation of Sn2+and energy-level mismatch between charge selective layers (CSLs) and the perovskite layer 10–13 Alongside parallel research on perovskites and electron selective layers (ESLs),14–17 hole-selective layer (HSL) research is relatively scarce in TPSCs and is anticipated to bring further remarkable progress in the future
- Inhibitors targeting on cell wall biosynthesis pathway of MRSA
The two main processes of cell wall biosynthesis pathway in methicillin resistant Staphylococcus aureus (MRSA) contain attractive targets for discovery of
- 成果及论文 - 王漾课题组(SUCH-YLAM)
Hole-selective-molecule doping improves the layer thickness tolerance of PEDOT:PSS for efficient organic solar cells eScience, DOI: 10 1016 j esci 2024 100305
- Stable cyclic ether as an electrolyte additive for high-performance . . .
Cited by (0) Electronic supplementary information (ESI) available See DOI: T Y and H Y contributed equally to this work
- Lattice Confinement‐Steered Adaptive Crystal‐Field and Spin‐State . . .
A scalable “frustrated Lewis pairs”-assisted lattice confinement strategy is reported, enabling Co substitution of tetrahedral and octahedral Al in millimetric γ-Al2O3 to form single-atom site monoli
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