教师简介

孙延娜,副教授,硕士生导师。入选山东省青年科技人才托举工程计划,山东大学青年学者未来计划。2015-2020年于南开大学攻读博士学位,师从陈永胜教授,随后加入山东大学,李玉良院士物质创制与能量转换科学研究中心团队。目前,发表SCI论文50余篇,包括以第一/通讯作者在Nature Electronics,Joule,Adv. Mater.,Angew. Chem. Int. Ed.,Adv. Energy Mater.等期刊发表论文30余篇,6篇论文入选 ESI 热点/高被引论文,1项工作被Nature Reviews Materials期刊评为“有机太阳电池发展史中的里程碑事件”;1篇论文入选Cell出版社2022中国年度论文(物质领域共10篇)。相关研究成果被《新华社》《光明日报》等媒体报道。申请中国专利2项,PCT专利1项。主持多项国家级和省部级科研项目。长期招收硕士研究生,欢迎感兴趣的同学联系ynsun@sdu.edu.cn。

主要研究方向包括:柔性透明电极;高效有机太阳能电池;柔性器件;石墨炔材料的设计合成及应用。

教育经历
  • 2015-9 — 2020-6
    南开大学
    高分子化学与物理/有机化学
    理学博士学位
  • 2011-9 — 2015-6
    中国海洋大学
    高分子材料与工程
    工学学士
工作经历
  • 2020-12 — 至今
     山东大学 
研究方向
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) Recent Progress in All-Small-Molecule Organic Solar Cells.2022,19 (3)

(15) Structural Fusion Yields Guest Acceptors that Enable Ternary Organic Solar Cells with 18.77 % Efficiency.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2023

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

(17) 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

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

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

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

(21) Simultaneously Enhanced Efficiency and Mechanical Durability in Ternary Solar Cells Enabled by Low-Cost Incompletely Separated Fullerenes.Macromol. Rapid Commun..2022

(22) 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

(23) Flexible organic photovoltaics based on water-processed silver nanowire electrodes.Nat. Electron.2019,2 :513

(24) Flexible high-performance and solution-processed organic photovoltaics with robust mechanical stability.Adv. Funct. Mater.2021,31 :2010000

(25) Flexible Organic Solar Cells: Progress and Challenges.Small Sci.2021,1 :2100001

(26) A new nonfullerene acceptor with near infrared absorption for high performance ternary-blend organic solar cells with efficiency over 13%.Adv. Sci.2018,5 :1800307

(27) Improving current and mitigating energy loss in ternary organic photovoltaics enabled by two well-compatible small molecule acceptors.Sci. China Chem..2021,64 :608

(28) Fluorination-modulated end units for high-performance non-fullerene acceptors based organic solar cells.Sci. China Mater..2019,62 :1210

(29) An A2-π-A1-π-A2-type small molecule donor for high-performance organic solar cells.J. Mater. Chem. C.2019,7 :5381

(30) Dithienosilole-based small molecule donors for efficient all-small-molecule organic solar cells.Dyes Pigments.2018,158 :445

(31) An all small molecule organic solar cell based on a porphyrin donor and a non-fullerene acceptor with complementary and broad absorption.Dyes Pigments.2020,176 :108250

(32) An efficient ternary organic solar cell with a porphyrin based small molecule donor and two fullerene acceptors.Chin. J. Org. Chem..2018,38 :228

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