1999.09 – 2002.08: 理學(xué)碩士,華東理工大學(xué)
2002.09 – 2006.10: 理學(xué)博士,德國美因茨大學(xué)
2006.10 – 2007.4:德國馬普高分子研究所博士后
2007.5 – 2010.1:德國馬普高分子研究所,課題組長(cháng)
2010.2 – 2023.5:中科院化學(xué)所研究員、博士生導師
2023.5?–至今:中科院理化技術(shù)研究所研究員、博士生導師
2006年10月在德國美因茨大學(xué)獲得博士學(xué)位。2007年5月起,在德國馬普高分子所擔任課題組長(cháng)。2010年進(jìn)入中國科學(xué)院化學(xué)研究所工作,任課題組長(cháng),博士生導師,先后獲基金委杰出青年基金項目、重點(diǎn)項目等支持。近年來(lái)主要開(kāi)展冰晶形成分子機制研究及控冰新材料的創(chuàng )制,并應用于防覆冰涂層與細胞、組織和器官的低溫保存等領(lǐng)域。共申請PCT專(zhuān)利9項,授權中國發(fā)明專(zhuān)利44項,系列研究成果發(fā)表于Nature、Angew.等期刊,SCI 收錄約110余篇。多次受邀參加美國高登會(huì )議等國際會(huì )議,并作特邀報告或大會(huì )報告。目前擔任《高分子學(xué)報》編委,韓國高麗大學(xué)冰水研究中心顧問(wèn),中國科學(xué)院分子科學(xué)中心第五屆學(xué)術(shù)委員會(huì )委員,中國化學(xué)會(huì )第十三屆理事會(huì )高分子學(xué)科委員會(huì )委員等。
(1)?仿生控冰材料開(kāi)發(fā),細胞組織等生物樣品的冷凍保存;
通過(guò)研究自然界中抗凍生物體內的抗凍機制,揭示冰晶成核與生長(cháng)的分子機制,并指導可控冰晶成核及生長(cháng)的控冰材料的創(chuàng )制,以控冰材料替代傳統凍存中毒性成分的使用,并開(kāi)展其在冷凍保存細胞、組織和器官中的應用研究。
(2)?防覆冰界面材料
研究冰在固體表面生長(cháng)的分子機制,設計開(kāi)發(fā)超低冰黏附界面材料,解決低溫、高濕環(huán)境下風(fēng)電機組、電力輸送、極地艦船等的防覆冰問(wèn)題。
(3)?冷凍組裝調控分子聚集
利用冷凍組裝策略,精確調控分子組裝過(guò)程,實(shí)現對有機納米顆粒及多尺度結構功能材料的可控制備;并應用于介觀(guān)尺度可控有機納米光催化、生物組織的高分辨成像、骨/韌帶等組織工程等領(lǐng)域。
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項目名稱(chēng) |
經(jīng)費來(lái)源 |
經(jīng)費/萬(wàn)元 |
項目年限 |
目前狀態(tài) |
擔任角色 |
1 |
組織器官仿生控冰凍存的分子機制 |
基金委重大項目 |
1489.2萬(wàn) |
2023-2027 |
在研 |
主持 |
2 |
高分子材料表面 與界面的研究 |
基金委杰出青年科學(xué)基金 |
400萬(wàn) |
2020-2024 |
在研 |
主持 |
3 |
防冰新材料調控冰晶 形成的關(guān)鍵物理化學(xué) 問(wèn)題研究 |
基金委重點(diǎn)項目 |
301萬(wàn) |
2018-2022 |
結題 |
主持 |
4 |
神經(jīng)元前體細胞及眼角膜內皮組織控冰冷凍 保存材料 |
中科院重點(diǎn)部署項目 |
400萬(wàn) |
2021-2025 |
在研 |
主持 |
5 |
仿生控冰冷凍保存 試劑研究 |
中科院0-1原始創(chuàng )新項目 |
300萬(wàn) |
2019-2024 |
在研 |
主持 |
6 |
睪丸組織生精小管凍融損傷機理與功能修復 |
科技部國家重點(diǎn)研發(fā)計劃 |
431萬(wàn) |
2022-2025 |
在研 |
主持 |
1.?Probing the critical nucleus size for ice formation with graphene oxide nanosheets; Bai G., Gao D., Liu Z., Zhou X. *, Wang J. *, NATURE, 2019, 576, 437.
2.?Janus effect of antifreeze proteins on ice nucleation; Liu K., Wang C. *, Ma J., Shi G., Yao X., Fang H., Song Y., Wang J. * PNAS?2016, 51,14739.
3.?Distinct ice patterns on solid surfaces with various wettabilities; Liu J., Zhu C., Liu K., Jiang Y., Song Y., Francisco J *., Zeng X. *, Wang J.*, PNAS, 2017, 114,?11285. (highlighted by Nature)
4.?Bioinspired Ice-Binding Materials for Tissue and Organ Cryopreservation; Liu Z.; Zheng, X.; Wang, J. *, J. Am. Chem. Soc.?2022, 144, 5685.
5.?Tuning ice nucleation with counterions on polyelectrolyte brush surfaces; He Z. *, Xie W. *, Liu Z., Liu G., Wang Z., Gao Y., Wang J., Science-Advances, 2016, 2, e160034.
6.?Graphene Oxide Restricts Growth and Recrystallization of Ice Crystals;Geng H., Liu X., Shi G. *, Bai G., Ma J., Chen J., Wu Z., Song Y., Fang H., Wang J. *, Angewandte Chemie-International Edition, 2017, 56,?997.
7.?Spontaneous Freezing of Water between 233 and 235 K Is Not Due to Homogeneous Nucleation; Han Xue,Yang Fu,Youhua Lu,Dezhao Hao,Kaiyong Li,Guoying Bai,Zhong-Can Ou-Yang, Jianjun Wang *,and Xin Zhou *,Journal of the American Chemical Society,?2021, 143, 13548.
8.?Use of Ion Exchange To Regulate the Heterogeneous Ice Nucleation Efficiency of Mica; Shenglin Jin+ , Yuan Liu+, Malte Deiseroth+, Jie Liu, Ellen H. G. Backus, Hui Li, Han Xue, Lishan Zhao, Xiao Cheng Zeng *, Mischa Bonn *, and Jianjun Wang *, Journal of the American Chemical Society, 2020. 142, 17956.
9.?Precise Control Over Kinetics of Molecular Assembly: Production of Particles with Tunable Sizes and Crystalline Forms; Qingrui Fan, Linhai Li , Han Xue , Heng Zhou, Lishan Zhao, Jie Liu, Junqiang Mao,?Shuwang Wu, Shizhong Zhang, Chenyang Wu, Xueming Li, Xin Zhou *, and Jianjun Wang * Angew Chem Int Ed Engl,2020, 59, 15141.
10.?Highly efficient solar anti-icing/deicing via a hierarchical structured surface; Chenyang Wu, Hongya Geng, Sicong Tan, Jianyong Lv, Haiqiao Wang *, Zhiyuan He *,Jianjun Wang, Materials Horizons, 2020, 7, 2097.
11.?A Freezing-Induced Turn-On Imaging Modality for Real-Time Monitoring of Cancer Cells in Cryosurgery; Zhiyuan He, Pai Liu, Shizhong Zhang, Jie Yan, Mengni Wang, Zhengxu Cai *and Jianjun Wang *,?Angewandte Chemie-International Edition, 2019, 58, 3834.
12.?Heterogeneous ice nucleation correlates with bulk-like interfacial water, Shuwang Wu,Jinger Zang,Shenglin Jin,Zuowei Wang,Jianping Wang,Yefeng Yao,Zhiyuan He *,and Jianjun Wang *, Science Advances, 2019, 5, 9825.
13.?Bioinspired Materials for Controlling Ice Nucleation, Growth, and Recrystallization; He Zhiyuan, Liu, Kai, Wang, Jianjun *, Accounts of Chemical Research,?2018, 51, 1082.
14.?Nonionic and Water-Soluble Poly(D/L?serine) as a Promising Biomedical Polymer for Cryopreservation. Yuling Sun *, Jie Liu, Zhibo Li, Jianjun Wang *, and Yanbin Huang *, ACS Appl. Mater. Interfaces. 2021, 13, 18461.
15.?All-Day Anti-icing/Deicing Film based on Combined Photo-Electro-Thermal Conversion, Tongtong Hao;Zhicheng Zhu;Huige Yang *, Zhiyuan He *, Jianjun Wang *, ACS Appl. Mater. Interfaces, 2021, 13, 44948.
16.?Bioinspired L?Proline Oligomers for the Cryopreservation of Oocytes via Controlling Ice Growth; Qingyuan Qin , Lishan Zhao, Zhang Liu, Tao Liu, Jiangxue Qu, Xiaowei Zhang, Rong Li, Liying Yan, Jie Yan *, Shenglin Jin *, Jianjun Wang *, and Jie Qiao, ACS Applied Materials & Interfaces, 2020, 12, 18352.
17.?Fabrication of Anti-Icing Surfaces by Short alpha-Helical Peptides; Zhang Yifan, Liu Kai, Li Kaiyong, Gutowski Voytek, Yin Yuan, Wang Jianjun *, ACS Applied Materials & Interfaces, 2018, 10, 1957.
18.?Competing Effects between Condensation and Self-Removal of Water Droplets Determine Antifrosting Performance of Superhydrophobic Surfaces; Guanlei Zhao, Guisheng Zou, Wengan Wang, Ruikun Geng, Xiao Yan, Zhiyuan He, Lei Liu *, Xin Zhou, Jainyong Lv *, Jianjun Wang *, ACS Applied Materials & Interfaces, 2020, 12, 7805.
19.?Bioinspired Crowding Inhibits Explosive Ice Growth in Antifreeze Protein Solutions; Zhang Liu, Yan Wang, Xia Zheng, Shenglin Jin, Shuo Liu, Zhiyuan He, Jun-Feng Xiang, Jianjun Wang *, Biomacromolecules, 2021, 22, 2614.
20.?Ion-Specific Effects on the Growth of Single Ice Crystals; Shizhong Zhang, Chuanbiao Zhang, Shuwang Wu, Xin Zhou, Zhiyuan He *, and Jianjun Wang *, The Journal of Physical Chemistry Letters, 2021, 12, 8726.
主要授權中國發(fā)明及PCT專(zhuān)利:
(1) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種篩選控冰材料的方法;中國發(fā)明專(zhuān)利,ZL201910282418.9。
(2) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種控冰材料的分子設計方法;中國發(fā)明專(zhuān)利,ZL201910282422.5。
(3) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種氨基酸類(lèi)冷凍保存液及其制備方法;中國發(fā)明專(zhuān)利,ZL202010172548.X。
(4) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種冷凍保存液及其制備方法;中國發(fā)明專(zhuān)利,ZL202010172544.1。
(5) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種無(wú)DMSO的冷凍保存液及其制備方法;中國發(fā)明專(zhuān)利,ZL202010171866.4。
(6) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種肽類(lèi)化合物和含有該化合物的冷凍保存液;中國發(fā)明專(zhuān)利,ZL202010171868.3。
(7) 王健君;金晟琳;嚴杰;喬杰;閆麗盈;李蓉;一種冷凍保存用解凍液及解凍方法;中國發(fā)明專(zhuān)利,ZL201910282421.0。
(8) WANG, Jianjun;?JIN, Shenglin;LV, Jianyong, YAN, Jie;QIAO, Jie;YAN, Liying;LI, Rong;一種仿生控冰材料及含有該仿生控冰材料的冷凍保存液;PCT發(fā)明專(zhuān)利,俄羅斯國家階段申請2021123840/05(049923)。
2022年獲第九屆僑界貢獻獎
2016年獲化學(xué)科學(xué)獎教金(創(chuàng )新獎)
人才隊伍