徐化君，副研究员，硕士生导师。入选山东省泰山学者青年专家人才工程、山东省优秀青年基金（海外）、山东大学青年学者未来计划。研究工作聚焦高性能有机电光聚合物及混合集成电光调制器件，致力于从分子层面研发具有超高电光活性及可靠性的材料体系，推动混合集成器件综合性能的提升。申请并主持4项科研项目，包括国家自然科学基金、山东省优秀青年基金（海外）、泰山学者青年专家、以及广东省基础与应用基础研究基金等。以一作/通讯作者累计发表科研论文30余篇，论文入选Chem. Mater.期刊2020年度下载最高论文、Mater. Horiz.期刊2022年度最受欢迎论文、以及Mater. Chem. Front.期刊2020年度最佳封面等，多次在国际/国内会议上做分会场邀请报告。申请并获授权中国发明专利2项，美国专利2项。专利技术（US12187827B2，US20230339966A1）成功实现授权转化，目前产品已投入商用，并参与创办光子芯片初创公司NLM Photonics。

• 2014/08/24-2015/10/20
  华盛顿大学
  Materialogy
• 2010/09/01-2016/07/03
  中国科学院大学
  材料学

• 2022-04 — Now
  前沿交叉科学青岛研究院山东大学
  副研究员
• 2016-08 — 2017-09
  薄膜工程部中芯北方集成电路制造有限公司
  工程师
• 2017-10 — 2021-12
  化学系华盛顿大学
  博士后研究员

1. 有机电光聚合物与混合电光调制器

2. 有机混合电光调制技术

3. 有机小分子太阳能电池材料

4. 太阳能热化学利用技术

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

(4)Wang, Mengke. Perspectives of thin-film lithium niobate and electro-optic polymers for high-performance electro-optic modulation .Journal of Materials Chemistry C .2023

(5) Electro-optic Activity in Excess of 1000 pm/V Achieved via Theory-guided Organic Chromophore Design .Adv. Mater. .2021 ,33 :2104174

(6) Design and synthesis of chromophores with enhanced electro-optic activities in both bulk and plasmonic–organic hybrid devices .Materials Horizons .2021 ,9 :261-270

(7) Ultrahigh electro-optic coefficients, high index of refraction, and long-term stability from Diels–Alder cross-linkable binary molecular glasses .Chemistry of Materials .2020 ,32 :1408-1421

(8) Molecular engineering of structurally diverse dendrimers with large electro-optic activities .ACS applied materials & interfaces .2019 ,11 :21058-21068

(9) Bis (4-dialkylaminophenyl) heteroarylamino donor chromophores exhibiting exceptional hyperpolarizabilities .Journal of Materials Chemistry C ,9 (8):2721-2728

(10) Mechanism and thermodynamic study of solar H2 production on LaFeO3 defected surface: Effect of H2O to H2 conversion ratio and kinetics on optimization of energy conversion efficiency .Journal of Cleaner Production .2020 ,268 :122293

(11)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

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

(13) Mechanism of oxygen vacancy assisted water-splitting of LaMnO3: inorganic perovskite prediction for fast solar thermochemical H2 production .Inorganic Chemistry Frontiers .2020 ,7 :2381-2387

(14)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

(15) Mechanism of CO production around oxygen vacancy of LaMnO3: an efficient and rapid evaluation of the doping effect on the kinetics and thermodynamic driving force of CO2-splitting .Journal of Materials Chemistry A .2019 ,8 :1709-1716

1. Organic electro-optic chromophores

2. Crosslinkable Nonlinear-optical Chromophore System

1. 高效柔性有机太阳电池及关键科学问题, 2023/09/01-2025/09/30

2. （包干项目）有机电光材料及电光调制器, 2023/01/01-2025/12/31

3. （包干项目）基于活性卡宾光交联作用的高稳定有机电光材料及电光性能研究, 2022/09/07-2025/12/31

4. 有机电光材料及电光调制器, 2023/01/01, 在研

5. 基于活性卡宾光交联作用的高稳定有机电光材料及电光性能研究, 2022/09/21, 在研