教育背景
工作经历
开设课程
科研项目
学术成果
社会兼职
其他




董任峰
博士 | 副研究员 | 硕导、博导 化学学院
研究方向: 自驱动微纳米体系，功能微纳米材料与器件，微纳米结构设计与制备
rfdong@m.scnu.edu.cn




教育背景
2009 - 2016 博士，硕博连读
华南理工大学，材料科学与工程学院，广州， 中国
2012 - 2014 联合培养博士
University of California San Diego，Nanoengineering，California， USA




工作经历
2018 - 至今 副研究员 华南师范大学 化学与环境学院
2016 - 2018 师资博士后 华南师范大学 化学与环境学院


开设课程
暂无


科研项目
1. 国家自然科学基金青年基金项目， 2018，国家级
2. 中国博士后科学基金特别资助， 2017，国家级
3. 广东省自然科学基金博士启动项目， 2017，省部级
4. 广东省自然科学基金自有申请项目， 2018，省部级
5. 中国博士后科学基金面上项目， 2016，市厅级
6. 广东省普通高校特色创新项目， 2018， 市厅级
7. 广州市科技计划项目， 2020，市厅级


学术成果
本课题组主要研究方向为自驱动微纳米体系，即利用特定的微纳米材料，设计特殊的微纳米结构，有效将周围环境能量（如光、声、磁、电、热、化学能等）转化为其机械能，制备出具有主动运动性能的微纳米机器人或者马达，并且通过物理或者化学的手段将其功能化，有效实现利用前沿的纳米科技解决在环境治理、生物医学、微纳加工等现实中的复杂问题。目前，共申请相关专利10项，其中授权专利4项；已发表署名论文43篇，其中以第一及通讯作者身份发表28篇，包括 J. Am. Chem. Soc., Acc. Chem. Res., ACS Nano, Nanoscale Horiz.等国际著名学术刊物。据谷歌学术统计，论文被总被引频次达2000余次，其中4篇为ESI高被引论文，H因子为21。
1. Dong, R.*; Cai，Y.; Yang, Y.; Gao, W.; Ren，B., Photocatalytic Micro-/Nanomotors: from Construction to Applications. Acc. Chem. Res. 2018, 51 (9), 1940–1947. （IF= 20.832）
2. Dong, R.; Hu, Y.; Wu, Y.; Gao, W.; Ren, B.*; Wang, Q.; Cai, Y.*, Visible-Light-Driven BiOI-Based Janus Micromotor in Pure Water. J. Am. Chem. Soc. 2017, 139 (5), 1722-1725.（IF= 14.612）
3. Dong, R.; Zhang, Q.; Gao, W.; Pei, A.; Ren, B.*, Highly Efficient Light-Driven TiO2–Au Janus Micromotors. ACS Nano 2016, 10 (1), 839-844.（IF=14.588）
4. Gao, W. ＃; Dong, R.＃; Thamphiwatana, S. ＃; Li, J.; Gao, W.; Zhang, L.; Wang, J., Artificial Micromotors in the Mouse’s Stomach: A Step toward in Vivo Use of Synthetic Motors. ACS Nano 2015, 9 (1), 117-123.（IF=14.588）
5. Wang, J.; Dong, R.#*; Wu, H.; Cai, Y.*; Ren, B.*, A Review on Artificial Micro/Nanomotors for Cancer-Targeted Delivery, Diagnosis, and Therapy. Nano-Micro Letters 2019, 12 (1), 11.（IF= 12.264）
6. Wu, Y.; Dong, R.*; Zhang, Q.; Ren, B.*, Dye-Enhanced Self-Electrophoretic Propulsion of Light-Driven TiO2–Au Janus Micromotors. Nano-Micro Letters 2017, 9 (3), 30.（IF= 12.264）
7 Wang, J.; Liu, X.; Qi, Y.; Liu, Z.*; Cai, Y.*; Dong, R.*, Ultrasound-propelled nanomotors for improving antigens cross-presentation and cellular immunity. Chem. Eng. J. 2021, 416, 129091.（IF= 10.652）
8. Wang, Q.; Dong, R.#*; Yang, Q.; Wang, J.; Xu, S.; Cai, Y.*, Highly Efficient Visible-Light-Driven Oxygen-Vacancy-Based Cu2+1O Micromotors with Biocompatible Fuels. Nanoscale Horizons 2019.（IF=9.927）
9. Wang, Q.; Dong, R. #*; Wang, C.; Xu, S.; Chen, D.; Liang, Y.; Ren, B.*; Gao, W.; Cai, Y.*, Glucose-Fueled Micromotors with Highly Efficient Visible-Light Photocatalytic Propulsion. ACS Appl. Mater. Interfaces 2019, 11 (6), 6201-6207.（IF= 8.758）
10. Hong, X.; Tang, X.; Wei, Q.; Song, C.; Wang, S.; Dong, R.*; Cai, Y.*; Si, L., Efficient Encapsulation of Small S2-4 Molecules in MOF-Derived Flowerlike Nitrogen-Doped Microporous Carbon Nanosheets for High-Performance Li–S Batteries. ACS Appl. Mater. Interfaces 2018, 10 (11), 9435-9443.（IF=8.758）
11. Zhang, Q.; Dong, R.*; Wu, Y.; Gao, W.; He, Z.; Ren, B.*, Light-Driven Au-WO3@C Janus Micromotors for Rapid Photodegradation of Dye Pollutants. ACS Appl. Mater. Interfaces 2017, 9 (5), 4674-4683.（IF= IF=8.758）
12. Hong, X.; Wei, Q.; Cai, Y.*; Wu, B.; Feng, H.; Yu, Y.; Dong, R.*, Pillar-Layered Metal–Organic Framework with Sieving Effect and Pore Space Partition for Effective Separation of Mixed Gas C2H2/C2H4. ACS Appl. Mater. Interfaces 2017, 9 (34), 29374-29379.
13. Wang, H.; Liang, Y.; Gao, W.; Dong, R.*; Wang, C., Emulsion Hydrogel Soft Motor Actuated by Thermal Stimulation. ACS Appl. Mater. Interfaces 2017, 9 (49), 43211-43219.
14 Yang, Q.; Xu, H.; Wen, H.; Zhao, H.; Liu, X.; Cai, Y.*; Wang, H.*; Dong, R.*, Graphene oxide induced enhancement of light-driven micromotor with biocompatible fuels. Appl. Mater. Today 2021, 22, 100943.（IF= 8.352）
15. Dong, R.; Wang, C.; Wang, Q.; Pei, A.; She, X.; Zhang, Y.; Cai, Y.*, ZnO-based Microrockets with Light-enhanced Propulsion. Nanoscale 2017, 9, 15027-15032.
16. Wang, J.; Dong, R. #*; Yang, Q.; Wu, H.; Bi, Z.; Liang, Q.; Wang, Q.; Wang, C.; Mei, Y.; Cai, Y.*, One body, two hands: photocatalytic function- and Fenton effect-integrated light-driven micromotors for pollutant degradation. Nanoscale 2019, 11 (35), 16592-16598.
17. Du, Z.; Yan, X.; Dong, R.*; Ke, K.; Ren, B.*; Tong, Z., Unusual Transient Network and Rheology of a Photoresponsive Telechelic Associative Model Polymer in Aqueous Solution Induced by Dimerization of Coumarin End Groups. Macromolecules 2018, 51 (4), 1518-1528.
18. Wang, C.; Dong, R. #*; Wang, Q.; Zhang, C.; She, X.; Wang, J.; Cai, Y.*, One Modification, Two Functions: Single Ni-modified Light-Driven Microrockets with Both Efficient Propulsion and Steerable Motion. Chemistry - An Asian Journal 2019, 14 (14), 2485-2490.
19. Dong, R.; Li, J.; Rozen, I.; Ezhilan, B.; Xu, T.; Christianson, C.; Gao, W.; Saintillan, D.; Ren, B.* Y.; Wang, J., Vapor-Driven Propulsion of Catalytic Micromotors. Sci. Rep. 2015, 5, 13226.
20. Dong, R.; Peng, J.; Chang, X.; Zhang, Q.; Hong, L.; Ren, B.*, Rheology of a spiropyran functionalized hydrophobically modified ethoxylated urethane in aqueous solution. J. Rheol. 2017, 61 (1), 107-116.
21. Du, Z.; Dong, R.*; Ke, K.; Ren, B.*, Multiple stimuli-responsive rheological behavior of a functionalized telechelic associative model polymer in aqueous solution. J. Rheol. 2018, 62 (5), 1233-1243.
22. Du, Z.; Ke, K.; Chang, X.; Dong, R.*; Ren, B.*, Controlled Self-Assembly of Multiple-Responsive Superamphiphilc Polymers Based on Host–Guest Inclusions of a Modified PEG with β-Cyclodextrin. Langmuir 2018, 34 (19), 5606-5614.
23. Wang, Q.; Wang, C.; Dong, R.*; Pang, Q.; Cai, Y.*, Steerable light-driven TiO2-Fe Janus micromotor. Inorg. Chem. Commun. 2018, 91, 1-4.
24. Wang, C.; Wang, Q.; Dong, R.*; Cai, Y.*, Dynamic self-assembly of micro-nanomotor. Inorg. Chem. Commun. 2018, 91, 8-15.
25. Wang, J.; Wu, H.; Liu, X.; Liang, Q.; Bi, Z.; Wang, Z.; Cai, Y.*; Dong, R.*, Carbon-Dot-Induced Acceleration of Light-Driven Micromotors with Inherent Fluorescences. Adv. Intell. Syst. 2020, **.
26. Dong, R.; Ren, B.*; Cai, Y.*, Light-driven micro/namomotors: Mechanisms and performances. Sci. Bull.2017, 62 (2-3), 152-166.
27. Wang，C.; Wang, Q. Dong, R.*; Cai, Y.*, The Aggregation /Dispersion Behavior of Micro-nanomotor and the Analysis of the Coresponding Mechanisms（微纳马达的聚集与分散行为及其机理解析）. 化学通报 2018, 4, 291-296.
28.Dong, R.; Ren, B.*, Nano/Micro Motor and Its Progress in Fabrication and Applications（微纳马达及其制备和应用研究进展). 功能材料与器件学报 2013, 19 (2), 88-97.
29. Li, J.; Gao, W.; Dong, R.; Pei, A.; Sattayasamitsathit, S.; Wang, J., Nanomotor lithography. Natu. Commun. 2014, 5, 5026.
30. Xu, T.; Soto, F.; Gao, W.; Dong, R.; Garcia-Gradilla, V.; Magaña, E.; Zhang, X.; Wang, J., Reversible swarming and separation of self-propelled chemically powered nanomotors under acoustic fields. J. Am. Chem. Soc. 2015, 137 (6), 2163-2166.
31 Gao, W.; Pei, A.; Dong, R.; Wang, J., Catalytic Iridium-Based Janus Micromotors Powered by Ultralow Levels of Chemical Fuels. J. Am. Chem. Soc. 2014, 136 (6), 2276-2279.
32. Zhu, W.; Li, J.; Leong, Y. J.; Rozen, I.; Qu, X.; Dong, R.; Wu, Z.; Gao, W.; Chung, P. H.; Wang, J., 3D‐Printed Artificial Microfish. Adv. Mater. 2015, 27 (30), 4411-4417.
33. Li, J.; Singh, V. V.; Sattayasamitsathit, S.; Orozco, J.; Kaufmann, K.; Dong, R.; Gao, W.; Jurado-Sanchez, B.; Fedorak, Y.; Wang, J., Water-Driven Micromotors for Rapid Photocatalytic Degradation of Biological and Chemical Warfare Agents. ACS Nano 2014, 8 (11), 11118-11125.
34. Zhang, Q.; Dong, R.; Chang, X.; Ren, B.*; Tong, Z., Spiropyran-Decorated SiO2–Pt Janus Micromotor: Preparation and Light-Induced Dynamic Self-Assembly and Disassembly. ACS Appl. Mater. Interfaces 2015, 7 (44), 24585-24591.
35. Du, Z.; Ren, B.*; Chang, X.; Dong, R.; Tong, Z., An End-Bifunctionalized Hydrophobically Modified Ethoxylated Urethane Model Polymer: Multiple Stimuli-Responsive Aggregation and Rheology in Aqueous Solution. Macromolecules 2017, 50 (4), 1688-1699.
36. Du, Z.; Ren, B.*; Chang, X.; Dong, R.; Peng, J.; Tong, Z., Aggregation and Rheology of an Azobenzene-Functionalized Hydrophobically Modified Ethoxylated Urethane in Aqueous Solution. Macromolecules 2016, 49 (13), 4978-4988.
37. Peng, J.; Dong, R.; Ren, B.*; Chang, X.; Tong, Z., Novel Hydrophobically Modified Ethoxylated Urethanes End-Capped by Percec-Type Alkyl Substituted Benzyl Alcohol Dendrons: Synthesis, Characterization, and Rheological Behavior. Macromolecules 2014, 47 (17), 5971-5981.
38. Ezhilan, B.; Gao, W.; Pei, A.; Rozen, I.; Dong, R.; Jurado-Sanchez, B.; Wang, J.; Saintillan, D., Motion-based threat detection using microrods: experiments and numerical simulations. Nanoscale 2015, 7 (17), 7833-7840.
39. Li, J.; Sattayasamitsathit, S.; Dong, R.; Gao, W.; Tam, R.; Feng, X.; Ai, S.; Wang, J., Template electrosynthesis of tailored-made helical nanoswimmers. Nanoscale 2014, 6 (16), 9415-9420.
40 Chang, X.; Cheng, Z.; Ren, B.*; Dong, R.; Peng, J.; Fu, S.; Tong, Z., Voltage-responsive reversible self-assembly and controlled drug release of ferrocene-containing polymeric superamphiphiles. Soft matter 2015, 11 (38), 7494-7501.
41. Chang, X.; Dong, R.; Ren, B.*; Cheng, Z.; Peng, J.; Tong, Z., Novel Ferrocenyl-Terminated Linear–Dendritic Amphiphilic Block Copolymers: Synthesis, Redox-Controlled Reversible Self-Assembly, and Oxidation-Controlled Release. Langmuir 2014, 30 (29), 8707-8716.
42. Wei, Q.; Ding, Y.; Huang, X.; Zhang, J.; Lu, W.; Dong, R.; Cai, Y.*; Si, L., Metal cation-dependent helicity of two 1-D heterometal chains constructed from pyridine-2,6-dicarboxylate. Inorg. Chem. Commun. 2016, 73, 52-56.
43. Wang, F.; Peng, J.; Dong, R.; Chang, X.; Ren, B.*; Tong, Z., Highly efficient hydrophobically modified ethoxylated urethanes (HEURs) end-functionalized by two-tail dendritic hydrophobes: Synthesis, solution rheological behavior and thickening in latex. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2016, 502, 114-120.



社会兼职
中国微米纳米技术学会微纳执行器与微系统分会理事
广东省药学会第二届药物手性专业委员会委员



其他

本课题组属于华南师范大学化学学院院长团队。
长期招聘生物医学、功能材料、微纳米加工等不同领域、方向的青年英才（特聘研究员、特聘副研究员）、博士后、硕/博研究生。

教职人员应聘基本条件：
1．获得或近期将获得博士学位。
2. 以第一作者或通讯作者发表过1篇以上sci论文。
具体要求
1. 生物医学方向：应聘者有从事生物医学方面的研究工作，熟悉细胞实验，活体实验等基本操作，具有医学基础更佳。
2. 功能材料方向：应聘者有从事功能微纳米材料方面的经验，能独立设计、合成制备功能化微纳米材料，有机无机均可。
3. 微纳米加工方向：应聘者有从事微纳米加工方面的研究经验，熟悉光刻、3D打印、纺丝等主流微纳米加工技术，能独立设计实验方案、制备目标微纳米结构。
4. 其他学科领域的如有兴趣，也非常欢迎联系！因为本研究领域非常前沿且交叉，若能找到有意义且有趣的学科交叉点，也非常欢迎加入！
薪酬待遇
详谈
应聘申请材料及要求
个人简历：包含教育背景（本科、硕士、博士）、主要研究方向、SCI论文情况。
联系方式：
有意者请将应聘申请材料发送至下列邮箱：
E-mail：rfdong@m.scnu.edu.cn；




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