教师简介

阚媛媛,副教授,硕士生导师,山东大学未来计划中青年学者。

主要从事有机太阳电池活性层/界面材料设计与开发、活性层微纳形貌优化与调控、高效有机光伏器件构筑、石墨炔材料合成与应用研究。主持国家自然科学基金青年项目、山东省自然科学基金项目、江苏省自然科学基金项目、广东省自然科学基金项目等。近五年,以第一/通讯作者在 Adv. Mater., Angew., Joule, Adv Energy Mater等重要学术刊物发表论文。长期招生硕士研究生,欢迎感兴趣的同学联系yykan@sdu.edu.cn

教育经历
  • 2007-9 — 2011-6
    山东科技大学
    高分子材料科学与工程
    学士
  • 2011-9 — 2016-6
    华南理工大学
    材料学
    博士生
工作经历
  • 2017-01 — 2020-09
     University of Washington(Seattle)/华盛顿大学(西雅图) 
  • 2021-01 — 至今
     山东大学 
研究概况

(1)有机太阳电池活性层/界面材料的设计与开发、活性层微纳形貌优化与调控、高效有机光伏器件构筑;

(2)  新型石墨炔的设计、合成与应用开发



研究方向

1.机太阳电池活性层/界面材料设计与开发、活性层微纳形貌优化与调控、高效有机光伏器件构筑、石墨炔材料合成

论文成果

(1) End-Extended Conjugation Strategy to Reduce the Efficiency-Stability-Mechanical Robustness Gap in Binary All-Polymer Solar Cells.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2024

(2) Isomerization Engineering of Solid Additives Enables Highly Efficient Organic Solar Cells via Manipulating Molecular Stacking and Aggregation of Active Layer.ADVANCED MATERIALS.2024

(3) Side-chain symmetry-breaking strategy on porphyrin donors enables high-efficiency binary all-small-molecule organic solar cells.SUSMAT.2024

(4) Regulating Crystallinity and Miscibility via Ternary Strategy Triggers Efficient All-Small-Molecule Organic Solar Cells.ACS Materials Letters.2024 :1920-1928

(5) Han, Chenyang.Enhancing efficiency and stability of organic solar cells through a simplified four-step synthesis of fully non-fused ring electron acceptor.JOURNAL OF ENERGY CHEMISTRY.2024,93 :601-608

(6) Synergy Effect of Symmetry-Breaking and End-Group Engineering Enables 16.06% Efficiency for All-Small-Molecule Organic Solar Cells.ACS Materials Letters.2024,6 (2):713-719

(7) Amino-Functionalized Graphdiyne Derivative as a Cathode Interface Layer with High Thickness Tolerance for Highly Efficient Organic Solar Cells.ADVANCED MATERIALS.2024

(8) Two Completely Non-Fused Ring Acceptors Working in an Alloy-Like Model for Efficient and Stable Organic Solar Cells.advanced energy materials.2024

(9) Xu, Yixuan.Recent Progress in All-Solution-Processed Organic Solar Cells.Chinese Journal of Chemistry.2023

(10) 王茜.Silane or Siloxane-Side-Chain Engineering of Photovoltaic Materials for Organic Solar Cells.CHINESE JOURNAL OF CHEMISTRY Journal.2023

(11) 孙延娜.Flexible Organic Solar Cells: Progress and Challenges.SMALL SCIENCE.2021,1 (5)

(12) Porphyrin-based donor with asymmetric ending groups enables 16.31% efficiency for ternary all-small-molecule organic solar cells.Chemical Engineering Journal.2023,469

(13) 任毅.石墨炔在光伏领域的研究进展.高 等 学 校 化 学 学 报.2023,44 (07):11-21

(14) Rational control of sequential morphology evolution and vertical distribution toward 17.18% efficiency all-small-molecule organic solar cells.JOULE.2022,6 (12):2835

(15) Shen, Haojiang.Enhanced Performance via pi-Bridge Alteration of Porphyrin-Based Donors for All-Small-Molecule Organic Solar Cells.CHINESE JOURNAL OF CHEMISTRY Journal.2023,41 (6):644

(16) A Bithiazole-Substituted Donor for High-Efficiency Thick Ternary Organic Solar Cells via Regulation of Crystallinity and Miscibility.Advanced Energy Materials.2023

(17) 徐化君.Recent Progress in Design of Organic Electro-optic Materials with Ultrahigh Electro-optic Activities(dagger).CHINESE JOURNAL OF CHEMISTRY Journal.2022,40 (24):3001

(18) 刘乐.Graphdiyne oxide-accelerated charge carrier transfer and separation at the interface for efficient binary organic solar cells 氧化石墨炔提升界面电荷传输及分离以构筑高效二元有机太阳能电池器件.SCIENCE CHINA-MATERIALS.2022

(19) 孙延娜.Single-junction organic solar cell smashes performance record.SCIENCE CHINA-MATERIALS.2022,65 (9):2609

(20) 孙延娜.Simultaneously Enhanced Efficiency and Mechanical Durability in Ternary Solar Cells Enabled by Low-Cost Incompletely Separated Fullerenes.MACROMOLECULAR RAPID COMMUNICATIONS.2022 (22)

(21) Ma, Ruijie.Achieving high efficiency and well-kept ductility in ternary all-polymer organic photovoltaic blends thanks to two well miscible donors.MATTER.2022,5 (2):725

(22) 刘乐.Graphdiyne oxide-accelerated charge carrier transfer and separation at the interface for efficient binary organic solar cells.SCIENCE CHINA-MATERIALS.2022

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