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张岩 副教授    

张岩

/ 1993-03/

手机:15620954104

E-mail: zhangyan@tiangong.edu.cn

籍贯:天津大港


教育&工作经历

2023.02-至今           天津工业大学化学学院    “天工百人”特聘副研究员、副教授

2022.07-2023.01     南开大学化学学院             功能高分子材料教育部重点实验室,科研助理

2019.09-2022.06     南开大学化学学院             高分子化学与物理,博士,师从张拥军教授

2019.02-2019.08     南开大学化学学院             功能高分子材料教育部重点实验室,科研助理

2016.09-2019.02     天津大学材料学院             材料工程 (高分子材料),硕士,师从许鑫华教授

2015.07-2016.08     天津市博尔达科技开发中心      生产物资科,实验员

2011.09-2015.06     天津大学材料学院             材料科学与工程 (高分子),学士


研究兴趣

1、聚合物材料的力学性质研究

2、深共晶溶剂的设计与研究

3、墨水直写式3D打印技术的开发

4、储能、传感和集成式电子器件的先进制造


研究概况

目前以第一作者、共同第一作者、通讯作者身份,在Nature CommunicationsScience AdvancesAdvanced MaterialsNano LettersAdvanced Functional MaterialsAdvanced ScienceEnergy Storage MaterialsJournal of Power Sources等期刊发表论文11篇,其中一篇论文入选ESI高被引论文。参与发表论文23篇,总引用超过600次(Google scholar)。


主持&参与项目

1、国家自然科学基金委员会青年项目,30万元,主持

2、河北省自然科学基金委员会青年项目,5万元,主持

3、用于蛋白药物分离纯化的蛋白印迹聚合物膜产业化关键技术研究,100万元,参与

4、国家自然科学基金委员会面上项目,基于可逆热响应智能电解液的电化学储能器件过热,60万元,参与

1、用于蛋白药物分离纯化的蛋白印迹聚合物膜产业化关键技术研究,100万元,参与2、国家自然科学基金委员会面上项目,基于可逆热响应智能电解液的电化学储能器件过热,60万元,参与1、用于蛋白药物分离纯化的蛋白印迹聚合物膜产业化关键技术研究,100万元,参与2、国家自然科学基金委员会面上项目,基于可逆热响应智能电解液的电化学储能器件过热,60万元,参与


发表论文

[1] Yan Zhang, Yafei Wang, Ying Guan*, Yongjun Zhang*. Peptide-enhanced tough, resilient and adhesive eutectogels for highly reliable strain/pressure sensing under extreme conditions. Nature Communications, 2022, 13, 6671. (IF = 17.694, 一区TOP, 第一作者)

[2] Jingxin Zhao1, Hongyu Lu1, Yan Zhang1, Shixiong Yu1, Oleksandr I. Malyi, Xiaoxin Zhao, Litong Wang, Huibo Wang, Jianhong Peng*, Xifei Li, Yanyan Zhang, Shi Chen, Hui Pan, Guichuan Xing, Conghua Lu, Yuxin Tang*, Xiaodong Chen*. Direct coherent multi-ink printing of fabric supercapacitors. Science Advances, 2021, 7(3): eabd6978. Highly cited paper by Web of Science. (IF = 14.957, 一区TOP, 共同第一作者)

[3] Hongyu Lu1, Jisong Hu1, Yan Zhang1, Kaiqi Zhang, Xiaoying Yan, Heqi Li, Jianzhu Li, Yujie Li*, Jingxin Zhao*, Bingang Xu*. 3D cold-trap environment printing for long-cycle aqueous Zn-ion batteries. Advanced Materials, 2022: 2209886. (IF = 32.086, 一区TOP, 共同第一作者)

[4] Jingxin Zhao1, Yan Zhang1, Hongyu Lu1, Yafei Wang1, Xu Dong Liu, Hirbod Maleki Kheimeh Sari, Jianhong Peng*, Shufan Chen, Xifei Li*, Yongjun Zhang, Xueliang Sun*, and Bingang Xu*. Additive manufacturing of two-dimensional conductive metal–organic framework with multidimensional hybrid architectures for high-performance energy storage. Nano Letters, 2022, 22(3): 1198-1206. (IF = 12.262, 一区TOP, 共同第一作者)

[5] Jingxin Zhao1, Yan Zhang1, Xiaoxin Zhao1, Rutao Wang, Jixun Xie, Chengfeng Yang, Juanjuan Wang, Qichong Zhang, Lele Li, Conghua Lu*, Yagang Yao*. Direct ink writing of adjustable electrochemical energy storage device with high gravimetric energy densities. Advanced Functional Materials, 2019, 29(26): 1900809. (IF = 19.924, 一区TOP, 共同第一作者)

[6] Jingxin Zhao1, Yan Zhang1, Yinan Huang1, Jixun Xie, Xiaoxin Zhao, Chaowei Li, Jingyi Qu, Qichong Zhang, Juan Sun, Bing He, Qiulong Li, Conghua Lu*, Xinhua Xu, Weibang Lu, Liqiang Li, Yagang Yao*. 3D printing fiber electrodes for an all‐fiber integrated electronic device via hybridization of an asymmetric supercapacitor and a temperature sensor. Advanced Science, 2018, 5(11): 1801114. (IF = 17.521, 一区TOP, 共同第一作者)

[7] Jingxin Zhao1, Lili Li1, Yan Zhang1, Chaowei Li, Qichong Zhang, Jianhong Peng, Xiaoxin Zhao, Qiulong Li, Xiaona Wang, Jixun Xie, Juan Sun, Bing He, Conghua Lu, Weibang Lu, Ting Zhang*, Yagang Yao*. Novel coaxial fiber-shaped sensing system integrated with an asymmetric supercapacitor and a humidity sensor. Energy Storage Materials, 2018, 15: 315-323. (IF = 20.831, 一区TOP, 共同第一作者)

[8] Yan Zhang, Tengxiao Ji, Shihui Hou, Lifang Zhang, Yunhui Shi, Jingxin Zhao, Xinhua Xu*. All-printed solid-state substrate-versatile and high-performance micro-supercapacitors for in situ fabricated transferable and wearable energy storage via multi-material 3D printing. Journal of Power Sources, 2018, 403: 109-117. (IF = 9.794, 一区TOP, 第一作者)

[9] Yan Zhang, Yafei Wang, Yangming Zhang, Jingxin Zhao, Yiyang Liu, Ying Guan*, Yongjun Zhang*. “Water‐salt‐in‐deep eutectic solvent” method to optimize conductivity, viscosity and freeze resistance for eutectic electrolytes. Batteries & Supercaps, 2022: e202200305. (IF = 6.043, 二区, 第一作者)

[10] Yanping Li*, Yating Wan, Yafei Wang, Yan Zhang*. 3D printing MOFs‐based fiber electrodes: A novel platform as electrochemical sensors for heavy metal ions. Zeitschrift für anorganische und allgemeine Chemie, 2022, e202200236. (IF = 1.414, 四区, 通讯作者)

[11] Jingxin Zhao1, Yan Zhang1, Jiaxian Yan1, Xiaoxin Zhao, Jixun Xie, Xin Luo, Jianhong Peng, Juanjuan Wang, Leichao Meng, Zhongming Zeng, Conghua Lu, Xinhua Xu, Yafei Dai*, and Yagang Yao*. Fiber-shaped electrochemical capacitors based on plasma-engraved graphene fibers with oxygen vacancies for alternating current line filtering performance. ACS Applied Energy Materials, 2019, 2(2): 993-999. (IF = 6.959, 二区, 共同第一作者)

[12] Pengyu Liu, Yan Zhang, Ying Guan*, Yongjun Zhang*. Peptide-crosslinked, highly entangled hydrogels with excellent mechanical properties but ultra-low solid content. Advanced Materials, 2023: 2210021. (IF = 32.086, 一区TOP, 共同第一作者)

[13] Yafei Wang, Yan Zhang, Ying Guan*, Yongjun Zhang*. Magnetic field-assisted fast assembly of microgel colloidal crystals. Langmuir, 2022, 38, 19, 6057-6065. (IF = 4.331, 三区, 第二作者)

[14] Yafei Wang, Yan Zhang, Sha Wang, Ying Guan*, Yongjun Zhang*. A 3D printed synergistic aerogel microreactor toward stable and high-efficiency photocatalytic degradation. Materials Today Chemistry, 2021, 22: 100566. (IF = 7.613, 一区TOP, 第二作者)

[15] Yang Zhao, Manman Wu, Hongbin Chen, Jie Zhu, Jie Liu, Zhantong Ye, Yan Zhang, Hongtao Zhang, Yanfeng Ma, Chenxi Li, Yongsheng Chen*. Balance cathode-active and anode-active groups in one conjugated polymer towards high-performance all-organic lithium-ion batteries. Nano Energy, 2021, 86: 106055. (IF = 19.069, 一区TOP, 第七作者)

[16] Yiyang Liu, Zhen Ge, Zhenhe Sun, Yan Zhang, Caiqiao Dong, Mingtao Zhang, Zhongjun Li*, Yongsheng Chen*. A high-performance energy storage system from sphagnum uptake waste LIBs with negative greenhouse-gas emission. Nano Energy, 2020, 67: 104216. (IF = 19.069, 一区TOP, 第四作者)

[17] Qinghai Yan, Yan Zhang, Yanfeng Dang, Yiyu Feng*, Wei Feng*. Solid-state high-power photo heat output of 4-((3, 5-dimethoxyaniline)-diazenyl)-2-imidazole/graphene film for thermally controllable dual data encoding/reading. Energy Storage Materials, 2020, 24: 662-669. (IF = 20.831, 一区TOP, 第二作者)

[18] Yifan Gu, Yan Zhang, Yunhui Shi, Lifang Zhang, Xinhua Xu. 3D all printing of polypyrrole nanotubes for high mass loading flexible supercapacitor. ChemistrySelect, 2019, 4(36): 10902-10906. (IF = 2.307, 四区, 第二作者)

[19] Shaoshuai Ma, Yunhui Shi, Yan Zhang, Liting Zheng, Qian Zhang, and Xinhua Xu*. All-printed substrate-versatile microsupercapacitors with thermoreversible self-protection behavior based on safe sol–gel transition electrolytes. ACS Applied Materials & Interfaces, 2019, 11(33): 29960-29969. (IF = 10.383, 一区TOP, 第三作者)

[20] Jingxin Zhao, Yan Zhang, Yinan Huang, Xiaoxin Zhao, Yunhui Shi, Jingyi Qu, Chengfeng Yang, Jixun Xie, Juanjuan Wang, Lele Li, Qinghai Yan, Shihui Hou, Conghua Lu*, Xinhua Xu*, Yagang Yao*. Duplex printing of all-in-one integrated electronic devices for temperature monitoring. Journal of Materials Chemistry A, 2019, 7(3): 972-978. (IF = 14.511, 一区TOP, 第二作者)

[21] Yunhui Shi, Yan Zhang, Limin Jia, Qian Zhang, Xinhua Xu*. Stretchable and self-healing integrated all-gel-state supercapacitors enabled by a notch-insensitive supramolecular hydrogel electrolyte. ACS Applied Materials & Interfaces, 2018, 10(42): 36028-36036. (IF = 10.383, 一区TOP, 第二作者)

[22] Yunhui Shi, Qian Zhang, Yan Zhang, Limin Jia, Xinhua Xu*. Promising and reversible electrolyte with thermal switching behavior for safer electrochemical storage devices. ACS Applied Materials & Interfaces, 2018, 10(8): 7171-7179. (IF = 10.383, 一区TOP, 第三作者)

[23] Wenjing Wang, Yan Zhang, Lifang Zhang, Yunhui Shi, Limin Jia, Qian Zhang, Xinhua Xu*. Flexible Mn3O4 nanosheet/reduced graphene oxide nanosheet paper-like electrodes for electrochemical energy storage and three-dimensional multilayers printing. Materials Letters, 2018, 213: 100-103. (IF = 3.574, 三区, 第二作者)