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师资队伍

高分子材料与工程系

基本信息|Basic Information

  • 姓名:陈然
  • 学位:工学博士
  • 职称:副教授
  • 所在系所:高分子材料与工程
  • 电子邮箱:tradchenr@xust.edu.cn

一、个人简介

职 称:副教授

所在系:高分子材料与工程系

职 务:系副主任/省级基地办公室主任

学术称号:硕士生导师

E-MAIL:tradchenr@xust.edu.cn

二、教育/工作经历

2024.12–至今 西安科技大学副教授

2023.11–2024.12 西安科技大学副研究员

2022.12–2023.11 陕西师范大学副研究员

2020.08–2023.11 陕西师范大学博士后导师:陈新兵教授

2017.09–2019.09美国中佛罗里达大学联合培养博士光学导师:吴诗聪院士

2015.09–2019.12 陕西师范大学 博士材料物理与化学导师:安忠维教授

2012.09–2015.07 陕西师范大学 硕博连读材料学导师:安忠维教授

2008.09–2012.07 江汉大学 本科 化学工程与工艺(国家一流本科建设专业)

三、研究领域或方向

[1]增强现实显示用快速响应硅基液晶材料;

[2]钙钛矿材料智能设计及其光伏、发光器件应用;

[3]书画文物保护材料与文物病害机理研究;

[4]人工智能驱动新能源和信息材料研发。

四、主要教学、科研成果

1. 科研项目

[1]国家自然科学基金青年项目,62105194,2022.01—2024.12,主持,结题;

[2]中国博士后科学基金特别资助,2022T150394,2022.08—2024.08,主持,结题;

[3]陕西省重点研发计划项目,2024GX-YBXM-409,2024.01—2025.12,主持,在研;

[4]西安科技大学高层次人才科研项目,2023.11—2028.11,主持,在研;

[5]陕西师范大学博士后科研启动费,2020.08—2023.08,主持,结题;

[6]横向项目(技术开发),2023JT017,2022.10—2023.08,主持,结题;

[7]教育部中央高校科研项目,GK202103054,2021.01—2022.12,主持,结题;

[8]教育部中央高校科研项目,GK201704008,2017.01—2018.12,主持,结题;

[9]教育部中央高校科研项目,GK201504008,2015.01—2016.12,主持,结题;

[10]省级大学生创新创业训练计划项目,S202410704175,2024.04—2025.05,指导;

[11]国家级大学生创新创业训练计划项目,S202210718036,2022.04—2023.05,指导;

[12]国家级大学生创新创业训练计划项目,S202110718044,2021.04—2022.05,指导;

[13]院级材料学子科研创新基金项目,CLXZ2206,2022.04—2024.05,指导;

[14]国家自然科学基金面上项目,21673134,2017.01—2020.12,参与,结题;

[15]国家自然科学基金应急管理项目,21543012,2016.01—2017.01,参与,结题;

[16]装备预研教育部联合基金项目,6141A02022219,2016.01—2017.12,参与,结题;

[17]陕西省国际联合基金项目,2021KW-20,2021.01—2022.12,参与,结题。

2.期刊论文

[1]Xinyi Du, Lu Zhang, Ran Chen*, Jiaxue You*, Yabin Ma, Jungang Wang, Yin Wu, Baibai Liu, Kui Zhao, Jiangzhao Chen, Xinbing Chen, Zhongwei An, Shengzhong (Frank) Liu*. Spontaneous Interface Healing by a Dynamic Liquid-Crystal Transition for High-Performance Perovskite Solar Cells.Adv. Mater.2022, 2207362. (SCI一区top, IF=29.40)

[2]Yabin Ma, Xinyi Du, Ran Chen*, Lu Zhang, Zhongwei An, Alex K.-Y. Jen, Jiaxue You*, Shengzhong (Frank) Liu*. Understanding microstructural development of perovskite crystallization for high performance solar cells.Adv. Mater. 2023, 2306947. (SCI一区top, IF=29.40)

[3]Yabin Ma, Jiaxue You,Lu Zhang,Ran Chen*,Hanqing Zeng, Jinghao Ge, Kun Li, Xiaokang Ma, Alex K.-Y. Jen*, Shengzhong (Frank) Liu*. High thermal conductivity of liquid crystal elastomer for Stress-free perovskite flexible solar cells.Adv. Funct. Mater.2024, 202405250. (SCI一区top, IF=19.00)

[4]Yabin Ma#, Ran Chen#, Yiran Tao, Lu Zhang, Di Xu, Hongyan Wang, Qing Zhao, Jiaxue you*, Alex K.-Y. Jen*, Shengzhong (Frank) Liu*. Enhanced Interfacial Modification by Ordered Discotic Liquid Crystals for Thermotolerance Perovskite Solar Cells.Angew. Chem. Int. Ed.2024, e202411121. (SCI一区top, IF=16.60)

[5]Jinghao Ge#, Ran Chen#, Yabin Ma, Yunfan Wang, Yingjie Hu, Lu Zhang, Fengzhu Li, Xiaokang Ma, Sai‐Wing Tsang, Jiaxue You*, Alex K.Y. Jen*,Shengzhong (Frank) Liu*.Kinetics controlled perovskite crystallization for high performance solar cells.Angew. Chem. Int. Ed.2024, e202319282. (SCI一区top, IF=16.60)

[6]Meizi Wu, Hongyan Wang, Yong Li, Ran Chen*, Hui Zhou, Shaomin Yang, Dongfang Xu, Kun Li, Zhongwei An*, Shengzhong (Frank) Liu, and Zhike Liu*. Crystallization Regulation by Self-assembling Liquid Crystal Template Enables Efficient and Stable Perovskite Solar Cells.Angew. Chem. Int. Ed.2023, e202313472. (SCI一区top, IF=16.60)

[7]Jiaojiao Liu*, Junchang Yang, Yuhu Li, Daodao Hu, Ran Chen*. Effect of glycerol triglycidyl ether on the dimensional stability and flexibility of photographic gelatine films.Herit. Sci.2023, 11, 49. (SCI一区top, IF=2.50)

[8]Jiaojiao Liu*, Wenqiang Dong, Junchang Yang, Zhongwei Chen, Jing Cao, Ran Chen*. Enhancement of the hygrothermal ageing properties of gelatine films by ethylene glycol diglycidyl ether.Herit. Sci.2024, 12, 297. (SCI一区top, IF=2.50)

[9]Pengjuan Zhou, Jianying Liang, Bobing Lin, Zhongwei An*, Ran Chen*, Xinbing Chen, Qi An, Pei Chen. Effect of the Spatial Configuration of Donors on the Photovoltaic Performance of Double D−π−A Organic Dyes.ACS Appl. Mater. Interfaces2021, 13, 40648–40655. (SCI一区top, IF=10.38)

[10]Ran Chen, Yun-Han Lee, Tao Zhan, Kun Yin, Zhongwei An, Shin-Tson Wu*. Multistimuli-responsive self-organized liquid crystal Bragg gratings.Adv. Opt. Mater.2019, 7(9), 1900101. (SCI一区top,IF=10.05,ESI高被引论文)

[11]Ran Chen, Yi Jiang, Jian Li, Zhongwei An*, Xinbing Chen, Pei Chen. Dielectric and optical anisotropy enhanced by 1,3-dioxolane terminal substitution on tolane-liquid crystals.J. Mater. Chem. C2015, 3, 8706–8711. (SCI一区top,IF=8.07)

[12]Jiaojiao Liu*, Wenqiang Dong, Junchang Yang, Zhongwei Chen, Qingmeng Xu, Ran Chen*. Restoration and preservation of severely embrittled and curled historical photographs by glycerol triglycidyl ether emulsion.J. Cult. Herit.2025, 72, 104–111. (SCI二区, IF=3.10)

[13]Jiaojiao Liu*,#, Ran Chen#, Zhi Luo, Jing Cao, Qingmeng Xu, Junchang Yang. Preservation and conservation of Chinese fragile silk banners with pioneer spirit: new silk mesh reinforcement.Archaeol. Anthrop. Sci., 2025, 17, 68. (SCI二区top,IF=8.07)

[14]Ran Chen*, Junyu Zou,Zihao Mao,Zhongwei An, Pei Chen, Xinbing Chen*. Terminal groups enhance the birefringence and dielectric anisotropy of fluorinated terphenyl liquid crystals for AR displays.J. Mol. Liq.2024, 397, 124162. (SCI二区top, IF=6.63)

[15]Ran Chen, Jiaxing Tang,Zihao Mao,Xinbing Chen, Pei Chen, Zhongwei An*. High-∆ntolane-liquid crystal diluters with low melting point and low rotational viscosity.J. Mol. Liq.2024, 398, 124312. (SCI二区top, IF=6.63)

[16]Chenhe Yao, Jiaxing Tang, Ran Chen*, Zihao Mao, Xinbing Chen, Pei Chen, Zhongwei An*. Bis-tolane liquid crystals terminated by 2,2-difluorovinyloxyl with high birefringence and large electrical anisotropy.J. Mol. Liq.2023, 375, 121369. (SCI二区top, IF=6.63)

[17]Ran Chen, Lu Wang, Zhongwei An*, Xinbing Chen, Pei Chen. Fluorination improves the mesomorphic and photovoltaic performance of rod-like liquid crystal molecules.Dyes Pigments2023, 215,111301. (SCI二区top,IF=5.12)

[18]Jiaxing Tang, Zihao Mao, Zhongwei An*, Ran Chen*, Xinbing Chen, Pei Chen. Difluorovinyl Liquid Crystal Diluters Improve the Electro-Optical Properties of High-∆nLiquid Crystal Mixture for AR Displays.Molecules2023, 28, 2458. (SCI二区, IF=4.60)

[19]Ran Chen#, *, Zihao Mao#, Zhongwei An, Xinbing Chen*,Pei Chen. Fluorination Improves the Electro-Optical Properties of Benzoxazole-Terminated Liquid Crystals in High Birefringence Liquid Crystal Mixtures: Experimental and Theoretical Investigations.Molecules2023, 28,3019. (SCI二区, IF=4.60)

[20]Jiaojiao Liu, Ran Chen, Junchang Yang, Yuhu Li, Daodao Hu*. Historical photo curling and fracture mainly caused by the surface performance change of gelatin resulting from alternating dry-wet environment.J. Cult. Herit.2023, 61, 57–64. (SCI二区, IF=3.10)

[21]Ran Chen, Liang Zhao, Yannanqi Li, JianLi, Pei Chen, Xinbing Chen*, Zhongwei An*. High birefringence liquid crystals with a wide temperature range and low melting point for augmented reality displays.Mater. Adv.2023, 4, 2119–2126. (SCI, IF=5.00)

[22]Ran Chen#, Bobing Lin#, Jianying Liang, Zhongwei An*, Xinbing Chen, Pei Chen. Effect of the spatial configuration of donors on the photovoltaic performance of co-adsorbent organic dyes formed by Z/E configuration.Opt. Mater.2023, 141, 113922. (SCI三区, IF=3.90)

[23]Jiaxing Tang,Ran Chen*, Zhongwei An*, Xinbing Chen, Pei Chen. Millisecond-response nematic liquid crystal for augmented reality displays.Photonics2023, 10, 1062. (SCI三区,IF=2.40, Liquid Crystals in Photonics专题约稿)

[24]Jiaxing Tang, Chenhe Yao, Zhongwei An*,Ran Chen*, Zihao Mao,Xinbing Chen, Pei Chen. Balance the trade-offs between high birefringence, large dielectric anisotropy and low viscosity in nematic liquid crystals through molecular splicing strategy.Liq. Cryst. 2023, 50, 1902–1910. (SCI三区,IF=3.08)

[25]Ran Chen, Wenjing Zhao,Xinbing Chen, Pei Chen, Zhongwei An*. Synthesis and properties of biphenyl liquid crystal diluters terminated by 2,2-difluorovinyloxyl for high birefringence liquid crystals.Liq. Cryst. 2023, 50, 2259–2267. (SCI三区,IF=3.08)

[26]Ran Chen, Zihao Mao,Jiaxing Tang,Xinbing Chen, Pei Chen,Zhongwei An*. Synthesis and performance evaluation of fluorinated biphenyl diluters for high birefringence liquid crystals.Liq. Cryst. 2023, 50, 2306–2313. (SCI三区,IF=3.08)

[27]Yongliang Liu, Shengbo Zhu*, Yilin Su, Ran Chen*, Wenzhi Zhang, Xiaoling Niu, Weixing Chen, Xinbing Chen, Zhongwei An. Solution-type electrochromic devices based on D-π-D thiophene derivatives.Mater. Today Commun.2022, 33, 104910. (SCI三区, IF=3.66)

[28]Ran Chen, Lu Wang, Zhongwei An*, Xinbing Chen*, Pei Chen. Effect of π-conjugation units on the liquid crystal and photovoltaic performance of heterocyclic pyridine-based compounds.Liq. Cryst.2021, 48, 2178–2187. (SCI三区, IF=3.08)

[29]Shengbo Zhu#, *, Ran Chen#, Wenzhi Zhang, Xiaoling Niu, Weixing Chen, Lingchao Mo, Minggang Hu, Lu Zhang, Jian Li*, Xinbing Chen, Zhongwei An*. Dissecting terminal fluorinated regulator of liquid crystals for fine-tuning intermolecular interaction and molecular configuration.J. Mol. Liq.2020, 310, 113225. (SCI二区, IF=6.63)

[30]Ran Chen, Yuge Huang, Jian Li, Minggang Hu, Juanli Li, Xinbing Chen, Pei Chen, Shin-Tson Wu*, Zhongwei An*. High-frame-rate liquid crystal phase modulator for augmented reality displays.Liq. Cryst.2019, 46(2), 309–315. (SCI二区,IF=3.08)

[31]Ran Chen#, Qiang Weng#, Zhongwei An*, Shengbo Zhu, Qi Wang, Xinbing Chen, Pei Chen. Investigation of 4-pyridyl liquid crystals on the photovoltaic performance and stability of dye sensitized solar cells by the co-sensitization.Dyes Pigments2018, 159, 527–532. (SCI二区top,IF=5.12)

[32]Ran Chen, Yuanyuan Qin, Zhongwei An*, Xinbing Chen, Pei Chen. The effect of phenyl ring on the physical properties of liquid crystals containing 4-pyridyl terminal group.Liq. Cryst.2018, 45(12), 1825–1833. (SCI二区,IF=3.08)

[33]Ran Chen, Qiang Weng, Lu Wang, Zhongwei An*, Xinbing Chen, Pei Chen. The effect of intermolecular actions on the nematic phase range of tolane-liquid crystals.Liq. Cryst. 2018, 45(5), 783–792. (SCI二区,IF=3.08)

[34]Ran Chen, Zhongwei An*, Wenliang Wang*, Xinbing Chen, Pei Chen. Lateral substituent effects on UV stability of high-birefringence liquid crystals with the diaryl-diacetylene core: DFT/TD-DFT study.Liq. Cryst. 2017, 44(10), 1515–1524. (SCI二区,IF=3.08)

[35]Ran Chen, Liang Zhao, Zhongwei An*, Xinbing Chen, Pei Chen. Synthesis and properties of allyloxy-based tolane-liquid crystals with high negative dielectric anisotropy.Liq. Cryst.2017, 44(14), 2184–2191. (SCI二区,IF=3.08)

[36]Ran Chen, Zhongwei An*, Wenliang Wang*, Xinbing Chen, Pei Chen. Improving UV stability of tolane-liquid crystals in photonic applications by theorthofluorine substitution.Opt. Mater. Express2016, 6(1), 97–105. (SCI二区,IF=2.67)

[37]Ran Chen, Zhongwei An*, Feng Li, Xinbing Chen, Pei Chen. Synthesis and physical properties of tolane liquid crystals containing 2,3-difluorophenylene and terminated by a tetrahydropyran moiety.Liq. Cryst. 2016, 43(4), 564–572. (SCI二区,IF=3.08)

[38]Ran Chen, Zhongwei An*, Xinbing Chen, Pei Chen. Syntheses and properties of four-ring liquid crystals with ethylene and internal alkyne bridge.Chem.J.Chinese U.2014, 35(7), 1433–1438. (SCI四区,IF=0.99)

3.已授权专利

[1]陈然,游家学,杜昕佚,刘生忠,安忠维,陈新兵.一种利用液晶动态转变自发界面愈合制备钙钛矿太阳能电池的方法,授权专利,ZL 202211171243.2,2025-09-16.

[2]陈然,唐佳兴,安忠维,陈新兵,陈沛. AR显示用快响应液晶组合物及制备方法,授权专利,ZL 202310195478.3,2024-05-07.

[3]刘姣姣,罗芷,陈然,杜静楠,杨军昌.一种文物智能环境实时监测方法和系统,授权专利,ZL202510012199.8,2025-04-08.

[4]陈然,安忠维,秦元元,陈新兵,陈沛.一种用于高双折射率液晶的含侧氟型联苯稀释剂及其合成方法,授权专利,ZL 201711080036.5,2021-01-29.

[5]安忠维,陈然,赵亮,陈新兵,陈沛.一种用于高双折射率液晶的含侧氟型二苯乙炔稀释剂及其合成方法,授权专利,ZL 201711037448.0, 2021-02-09.

[6]安忠维,陈然,陈新兵,陈沛.双环己基乙撑基取代二苯炔液晶化合物及其制备方法,授权专利,ZL 201310712745.6, 2015-08-19.(完成专利成果转让)

[7]安忠维,陈然,陈新兵,陈沛.一种1-氟-3-[2-(反式-4-烷基环己基)乙基]苯的合成方法,授权专利,ZL 201410168832.4, 2015-08-19.(完成专利成果转让)

[8]安忠维,陈然,陈新兵,陈沛.含缩醛环的液晶化合物及其制备方法,授权专利,ZL 201510131133.7, 2016-10-26.(完成专利成果转让)

[9]安忠维,陈然,王璐,陈新兵,陈沛.一种含吡啶末端基二苯乙炔类液晶分子及其制备方法和应用,授权专利,ZL 201610828612.9, 2018-08-24.(完成专利成果转让)

[10]安忠维,陈然,马雯燕,陈新兵,陈沛.一种含吡啶末端基炔类液晶化合物及其制备方法和应用,授权专利,ZL 201610829213.4, 2018-08-24.

4.教学成果

[1]主持校级教改项目《人工智能驱动新材料设计实验》,2025.12-2026.12;

[2]主持教育部就业育人项目《基于创新能力培养的高分子光电功能材料课程实习基地建设》,2024.01-2025.12;

[3]第一作者在《西安科技大学高教研究》上发表“实验课程与思政教育的结合—以液晶材料实验为例”的教改论文,2024;

[4]参编科学出版社《液晶合成与液晶材料》学术专著5章,2022.

[5]第三届全国大学生高分子材料实验实践虚拟仿真大赛一等奖和三等奖指导教师。

五、获奖和荣誉

[1]2024年和2025年获得西安科技大学师德师风考核优秀;

[2]2024年获得西安科技大学院级年度考核优秀;

[3]2023~2026年受邀担任Polymers(IF:4.9,JCR一区)学术期刊客座编辑;

[4]2025~2026年受邀担任Gels(IF:5.3,JCR一区)学术期刊客座编辑;

[5]2023年获得陕西高等学校科学技术研究优秀成果奖二等奖1项;

[6]2019年获得美国显示周国际会议奖励,SID 2019 Student Travel Grant;

[7]2018年获得美国显示周国际会议奖励,SID 2018 Student Travel Grant;

[8]2017年获得中国国家留学基金委(CSC)留学奖学金;

[9]2015年获得陕西省第二届研究生创新成果展暨创新成果洽谈会优秀成果一等奖。

六、生活照(参考以下照片)

证件照

生活照

主要研究方向

[1]增强现实(AR)显示用快速响应液晶材料设计合成

[2]钙钛矿材料智能设计与新型器件应用拓展;

[3]虚拟现实中数字化三维建模技术与应用;

[4]文化遗产保护材料与文物病害机理研究。

主持及参与科研项目:

[1]国家自然科学基金青年项目,62105194,2022.01—2024.12,主持,结题;

[2]中国博士后科学基金特别资助,2022T150394,2022.08—2024.08,主持,结题;

[3]陕西省重点研发计划项目,2024GX-YBXM-409,2024.01—2025.12,主持,在研;

[4]西安科技大学高层次人才科研项目,2023.11—2028.11,主持,在研;

[5]陕西师范大学博士后科研启动费,2020.08—2023.08,主持,结题;

[6]横向项目(技术开发),2023JT017,2022.10—2023.08,主持,结题;

[7]教育部中央高校科研项目,GK202103054,2021.01—2022.12,主持,结题;

[8]教育部中央高校科研项目,GK201704008,2017.01—2018.12,主持,结题;

[9]教育部中央高校科研项目,GK201504008,2015.01—2016.12,主持,结题;

[10]省级大学生创新创业训练计划项目,S202410704175,2024.04—2025.05,指导;

[11]国家级大学生创新创业训练计划项目,S202210718036,2022.04—2023.05,指导;

[12]国家级大学生创新创业训练计划项目,S202110718044,2021.04—2022.05,指导;

[13]院级材料学子科研创新基金项目,CLXZ2206,2022.04—2024.05,指导;

[14]国家自然科学基金面上项目,21673134,2017.01—2020.12,参与,结题;

[15]国家自然科学基金应急管理项目,21543012,2016.01—2017.01,参与,结题;

[16]装备预研教育部联合基金项目,6141A02022219,2016.01—2017.12,参与,结题;

[17]陕西省国际联合基金项目,2021KW-20,2021.01—2022.12,参与,结题。

代表性学术论文:

[1]Xinyi Du, Lu Zhang,Ran Chen*, Jiaxue You*, Yabin Ma, Jungang Wang, Yin Wu, Baibai Liu, Kui Zhao, Jiangzhao Chen, Xinbing Chen, Zhongwei An, Shengzhong (Frank) Liu*. Spontaneous Interface Healing by a Dynamic Liquid-Crystal Transition for High-Performance Perovskite Solar Cells.Adv. Mater.2022, 2207362. (SCI一区top, IF=29.40)

[2]Yabin Ma, Xinyi Du,Ran Chen*, Lu Zhang, Zhongwei An, Alex K.-Y. Jen, Jiaxue You*, Shengzhong (Frank) Liu*. Understanding microstructural development of perovskite crystallization for high performance solar cells.Adv. Mater.2023, 2306947. (SCI一区top, IF=29.40)

[3]Yabin Ma, Jiaxue You,Lu Zhang,Ran Chen*,Hanqing Zeng, Jinghao Ge, Kun Li, Xiaokang Ma, Alex K.-Y. Jen*, Shengzhong (Frank) Liu*. High thermal conductivity of liquid crystal elastomer for Stress-free perovskite flexible solar cells.Adv. Funct. Mater.2024, 202405250. (SCI一区top, IF=19.00)

[4]Yabin Ma#,Ran Chen#, Yiran Tao, Lu Zhang, Di Xu, Hongyan Wang, Qing Zhao, Jiaxue you*, Alex K.-Y. Jen*, Shengzhong (Frank) Liu*. Enhanced Interfacial Modification by Ordered Discotic Liquid Crystals for Thermotolerance Perovskite Solar Cells.Angew. Chem. Int. Ed.2024, e202411121. (SCI一区top, IF=16.60)

[5]Jinghao Ge#,Ran Chen#, Yabin Ma, Yunfan Wang, Yingjie Hu, Lu Zhang, Fengzhu Li, Xiaokang Ma, Sai‐Wing Tsang, Jiaxue You*, Alex K.Y. Jen*,Shengzhong (Frank) Liu*.Kinetics controlled perovskite crystallization for high performance solar cells.Angew. Chem. Int. Ed.2024, e202319282. (SCI一区top, IF=16.60)

[6]Meizi Wu, Hongyan Wang, Yong Li,Ran Chen*, Hui Zhou, Shaomin Yang, Dongfang Xu, Kun Li, Zhongwei An*, Shengzhong (Frank) Liu, and Zhike Liu*. Crystallization Regulation by Self-assembling Liquid Crystal Template Enables Efficient and Stable Perovskite Solar Cells.Angew. Chem. Int. Ed.2023, e202313472. (SCI一区top, IF=16.60)

[7]Jiaojiao Liu*, Junchang Yang, Yuhu Li, Daodao Hu,Ran Chen*. Effect of glycerol triglycidyl ether on the dimensional stability and flexibility of photographic gelatine films.Herit. Sci.2023, 11, 49. (SCI一区top, IF=2.50)

[8]Jiaojiao Liu*, Wenqiang Dong, Junchang Yang, Zhongwei Chen, Jing Cao,Ran Chen*. Enhancement of the hygrothermal ageing properties of gelatine films by ethylene glycol diglycidyl ether.Herit. Sci.2024, 12, 297. (SCI一区top, IF=2.50)

[9]Pengjuan Zhou, Jianying Liang, Bobing Lin, Zhongwei An*,Ran Chen*, Xinbing Chen, Qi An, Pei Chen. Effect of the Spatial Configuration of Donors on the Photovoltaic Performance of Double D−π−A Organic Dyes.ACS Appl. Mater. Interfaces2021, 13, 40648–40655. (SCI一区top, IF=10.38)

[10]Ran Chen, Yun-Han Lee, Tao Zhan, Kun Yin, Zhongwei An, Shin-Tson Wu*. Multistimuli-responsive self-organized liquid crystal Bragg gratings.Adv. Opt. Mater.2019, 7(9), 1900101. (SCI一区top,IF=10.05,ESI高被引论文)

[11]Ran Chen, Yi Jiang, Jian Li, Zhongwei An*, Xinbing Chen, Pei Chen. Dielectric and optical anisotropy enhanced by 1,3-dioxolane terminal substitution on tolane-liquid crystals.J. Mater. Chem. C2015, 3, 8706–8711. (SCI一区top,IF=8.07)

[12]Ran Chen*, Junyu Zou,Zihao Mao,Zhongwei An, Pei Chen, Xinbing Chen*. Terminal groups enhance the birefringence and dielectric anisotropy of fluorinated terphenyl liquid crystals for AR displays.J. Mol. Liq.2024, 397, 124162. (SCI二区top, IF=6.63)

[13]Ran Chen, Jiaxing Tang,Zihao Mao,Xinbing Chen, Pei Chen, Zhongwei An*. High-∆ntolane-liquid crystal diluters with low melting point and low rotational viscosity.J. Mol. Liq.2024, 398, 124312. (SCI二区top, IF=6.63)

[14]Chenhe Yao, Jiaxing Tang,Ran Chen*, Zihao Mao, Xinbing Chen, Pei Chen, Zhongwei An*. Bis-tolane liquid crystals terminated by 2,2-difluorovinyloxyl with high birefringence and large electrical anisotropy.J. Mol. Liq.2023, 375, 121369. (SCI二区top, IF=6.63)

[15]Ran Chen, Lu Wang, Zhongwei An*, Xinbing Chen, Pei Chen. Fluorination improves the mesomorphic and photovoltaic performance of rod-like liquid crystal molecules.Dyes Pigments2023, 215,111301. (SCI二区top,IF=5.12)

[16]Jiaxing Tang, Zihao Mao, Zhongwei An*,Ran Chen*, Xinbing Chen, Pei Chen. Difluorovinyl Liquid Crystal Diluters Improve the Electro-Optical Properties of High-∆nLiquid Crystal Mixture for AR Displays.Molecules2023, 28, 2458. (SCI二区, IF=4.60)

[17]Ran Chen#, *, Zihao Mao#, Zhongwei An, Xinbing Chen*,Pei Chen. Fluorination Improves the Electro-Optical Properties of Benzoxazole-Terminated Liquid Crystals in High Birefringence Liquid Crystal Mixtures: Experimental and Theoretical Investigations.Molecules2023, 28,3019. (SCI二区, IF=4.60)

[18]Jiaojiao Liu,Ran Chen, Junchang Yang, Yuhu Li, Daodao Hu*. Historical photo curling and fracture mainly caused by the surface performance change of gelatin resulting from alternating dry-wet environment.J. Cult. Herit.2023, 61, 57–64. (SCI二区,IF=3.10)

[19]Ran Chen, Liang Zhao, Yannanqi Li, JianLi, Pei Chen, Xinbing Chen*, Zhongwei An*. High birefringence liquid crystals with a wide temperature range and low melting point for augmented reality displays.Mater. Adv.2023, 4, 2119–2126. (SCI,IF=5.00)

[20]Ran Chen#, Bobing Lin#, Jianying Liang, Zhongwei An*, Xinbing Chen, Pei Chen. Effect of the spatial configuration of donors on the photovoltaic performance of co-adsorbent organic dyes formed by Z/E configuration.Opt. Mater.2023, 141, 113922. (SCI三区, IF=3.90)

[21]Jiaxing Tang,Ran Chen*, Zhongwei An*, Xinbing Chen, Pei Chen. Millisecond-response nematic liquid crystal for augmented reality displays.Photonics2023, 10, 1062. (SCI,IF=2.40, Liquid Crystals in Photonics专题约稿)

[22]Jiaxing Tang, Chenhe Yao, Zhongwei An*,Ran Chen*, Zihao Mao,Xinbing Chen, Pei Chen. Balance the trade-offs between high birefringence, large dielectric anisotropy and low viscosity in nematic liquid crystals through molecular splicing strategy.Liq. Cryst.2023, 50, 1902–1910. (SCI,IF=3.08)

[23]Ran Chen, Wenjing Zhao,Xinbing Chen, Pei Chen, Zhongwei An*. Synthesis and properties of biphenyl liquid crystal diluters terminated by 2,2-difluorovinyloxyl for high birefringence liquid crystals.Liq. Cryst.2023, 50, 2259–2267. (SCI,IF=3.08)

[24]Ran Chen, Zihao Mao,Jiaxing Tang,Xinbing Chen, Pei Chen,Zhongwei An*. Synthesis and performance evaluation of fluorinated biphenyl diluters for high birefringence liquid crystals.Liq. Cryst.2023, 50, 2306–2313. (SCI三区,IF=3.08)

[25]Yongliang Liu, Shengbo Zhu*, Yilin Su,Ran Chen*, Wenzhi Zhang, Xiaoling Niu, Weixing Chen, Xinbing Chen, Zhongwei An. Solution-type electrochromic devices based on D-π-D thiophene derivatives.Mater. Today Commun.2022, 33, 104910. (SCI三区, IF=3.66)

[26]Ran Chen, Lu Wang, Zhongwei An*, Xinbing Chen*, Pei Chen. Effect of π-conjugation units on the liquid crystal and photovoltaic performance of heterocyclic pyridine-based compounds.Liq. Cryst.2021, 48, 2178–2187. (SCI三区, IF=3.08)

[27]Shengbo Zhu#, *,Ran Chen#, Wenzhi Zhang, Xiaoling Niu, Weixing Chen, Lingchao Mo, Minggang Hu, Lu Zhang, Jian Li*, Xinbing Chen, Zhongwei An*. Dissecting terminal fluorinated regulator of liquid crystals for fine-tuning intermolecular interaction and molecular configuration.J. Mol. Liq.2020, 310, 113225. (SCI二区, IF=6.63)

[28]Ran Chen, Yuge Huang, Jian Li, Minggang Hu, Juanli Li, Xinbing Chen, Pei Chen, Shin-Tson Wu*, Zhongwei An*. High-frame-rate liquid crystal phase modulator for augmented reality displays.Liq. Cryst.2019, 46(2), 309–315. (SCI二区,IF=3.08)

[29]Ran Chen#, Qiang Weng#, Zhongwei An*, Shengbo Zhu, Qi Wang, Xinbing Chen, Pei Chen. Investigation of 4-pyridyl liquid crystals on the photovoltaic performance and stability of dye sensitized solar cells by the co-sensitization.Dyes Pigments2018, 159, 527–532. (SCI二区top,IF=5.12)

[30]Ran Chen, Yuanyuan Qin, Zhongwei An*, Xinbing Chen, Pei Chen. The effect of phenyl ring on the physical properties of liquid crystals containing 4-pyridyl terminal group.Liq. Cryst.2018, 45(12), 1825–1833. (SCI二区,IF=3.08)

[31]Ran Chen, Qiang Weng, Lu Wang, Zhongwei An*, Xinbing Chen, Pei Chen. The effect of intermolecular actions on the nematic phase range of tolane-liquid crystals.Liq. Cryst.2018, 45(5), 783–792. (SCI二区,IF=3.08)

[32]Ran Chen, Zhongwei An*, Wenliang Wang*, Xinbing Chen, Pei Chen. Lateral substituent effects on UV stability of high-birefringence liquid crystals with the diaryl-diacetylene core: DFT/TD-DFT study.Liq. Cryst.2017,44(10), 1515–1524.(SCI二区,IF=3.08)

[33]Ran Chen, Liang Zhao, Zhongwei An*, Xinbing Chen, Pei Chen. Synthesis and properties of allyloxy-based tolane-liquid crystals with high negative dielectric anisotropy.Liq. Cryst.2017, 44(14), 2184–2191. (SCI二区,IF=3.08)

[34]Ran Chen, Zhongwei An*, Wenliang Wang*, Xinbing Chen, Pei Chen. Improving UV stability of tolane-liquid crystals in photonic applications by theorthofluorine substitution.Opt. Mater. Express2016,6(1), 97–105. (SCI二区,IF=2.67)

[35]Ran Chen, Zhongwei An*, Feng Li, Xinbing Chen, Pei Chen. Synthesis and physical properties of tolane liquid crystals containing 2,3-difluorophenylene and terminated by a tetrahydropyran moiety.Liq. Cryst.2016, 43(4), 564–572. (SCI二区,IF=3.08)

[36]Ran Chen, Zhongwei An*, Xinbing Chen, Pei Chen. Syntheses and properties of four-ring liquid crystals with ethylene and internal alkyne bridge.Chem.J.Chinese U.2014, 35(7), 1433–1438. (SCI四区,IF=0.99)

学术交流:

[1]2024.10.10~10.13,中国物理学会2024秋季学术会议,中国海南,邀请报告,报告题目“增强现实显示和光伏器件中液晶材料研究进展”。

[2]2023.03.31~04.03,2023 International Conference on Display Technology,中国南京,口头报告,报告题目“An Essential Role of Diluters on the Fast Response Time for High Birefringence Liquid Crystals”。EI会议论文(SID Symp. Digest2023, 54(S1),336-339)。

[3]2019.05.12~05.17,2019 Display Week International Symposium,美国圣何塞,口头报告,报告题目“Fast-response polarization volume gratings for AR/VR displays”。EI会议论文(SID Symp. Digest2019, 50(1), 838-841)。

[4]2018.05.22~05.27,2018 Display Week International Symposium,美国洛杉矶,口头报告,报告题目“High-birefringence liquid crystal for Phase-only spatial light modulators”。EI会议论文(SID Symp. Digest2018,49(1), 674-677)。

[5]2018.09.16~09.23,XXII Conference of Liquid Crystals, Chemistry, Physics and Applications CLC’2018,波兰加茨比亚,口头报告,报告题目“High Birefringence Liquid Crystals with Wide Temperature Range and Low Viscosity”。

[6]2017.05.05~05.07,第六届液晶光子学国际会议,中国天津,海报展示,报告题目“Nematic Liquid Crystals with a Pyridine Terminal Group as Dye Sensitizers for Dye-Sensitized Solar Cells”。

学术专著:

[1]陈新兵,安忠维,陈沛,陈然,杜盛华,等.《液晶合成与液晶材料》,科学出版社, 2022, ISBN: 978-7-03-072157-0.(参编五章)

国家发明专利:

[1]陈然,安忠维,秦元元,陈新兵,陈沛.一种用于高双折射率液晶的含侧氟型联苯稀释剂及其合成方法,授权专利,ZL 201711080036.5,2021-01-29.

[2]陈然,唐佳兴,安忠维,陈新兵,陈沛.AR显示用快响应液晶组合物及制备方法,授权专利,ZL 202310195478.3,2024-05-07.

[3]陈然,游家学,杜昕佚,刘生忠,安忠维,陈新兵.一种利用液晶动态转变自发界面愈合制备钙钛矿太阳能电池的方法,公开专利,CN115498116A,2022-12-20.

[4]陈然,马亚斌,游家学,刘生忠.基于自组装盘状液晶构建复合界面钝化层的热稳定钙钛矿太阳能电池及其制备方法,公开专利,CN118742162A,2024-10-01.

[5]安忠维,陈然,赵亮,陈新兵,陈沛.一种用于高双折射率液晶的含侧氟型二苯乙炔稀释剂及其合成方法,授权专利,ZL 201711037448.0, 2021-02-09.

[6]安忠维,陈然,陈新兵,陈沛.双环己基乙撑基取代二苯炔液晶化合物及其制备方法,授权专利,ZL 201310712745.6, 2015-08-19.(完成专利成果转让)

[7]安忠维,陈然,陈新兵,陈沛.一种1-氟-3-[2-(反式-4-烷基环己基)乙基]苯的合成方法,授权专利,ZL 201410168832.4, 2015-08-19.(完成专利成果转让)

[8]安忠维,陈然,陈新兵,陈沛.含缩醛环的液晶化合物及其制备方法,授权专利,ZL 201510131133.7, 2016-10-26.(完成专利成果转让)

[9]安忠维,陈然,王璐,陈新兵,陈沛.一种含吡啶末端基二苯乙炔类液晶分子及其制备方法和应用,授权专利,ZL 201610828612.9, 2018-08-24.(完成专利成果转让)

[10]安忠维,陈然,马雯燕,陈新兵,陈沛.一种含吡啶末端基炔类液晶化合物及其制备方法和应用,授权专利,ZL 201610829213.4, 2018-08-24.

获奖与荣誉:

[1]2024年获得西安科技大学师德师风考核优秀;

[2]2024年获得西安科技大学院级年度考核优秀;

[3]2023~2025年受邀担任Polymers(IF:5.0)学术期刊客座编辑;

[4]2023年获得陕西高等学校科学技术研究优秀成果奖二等奖1项;

[5]2019年获得美国显示周国际会议奖励,SID 2019 Student Travel Grant;

[6]2018年获得美国显示周国际会议奖励,SID 2018 Student Travel Grant;

[7]2017年获得中国国家留学基金委(CSC)留学奖学金;

2015年获得陕西省第二届研究生创新成果展暨创新成果洽谈会优秀成果一等奖。