浙江大学化工学院刘平伟

suoshi

刘平伟，浙江大学“百人计划”特聘研究员。2014年博士毕业于浙江大学，2014-2018年在美国MIT化工系从事博士后研究。研究领域涉及聚合物材料、二维材料、纳米复合材料、纳米催化及微纳机器人等方面。近年在Science、Nature Materials、Nature Nanotechnology等期刊上发表论文20余篇，获中国、国际发明专利授权各1件，在层状和卷涡状二维材料/聚合物纳米复合材料、基于二维材料的智能微粒器件和微纳机器人等方向取得了创新成果，相关成果被MIT News、Angew. Chem. Int. Ed.、Nano Today、Mater. Today等权威媒体和期刊报道和评述。

刘平伟研究员，博士生导师

教育背景

2008-2014年    浙江大学化工学院，工学博士

2004-2008年    浙江大学化工系，工学学士

研究经历

2008-2014年     浙江大学化工学院博士（聚合物反应工程）

2010&2012年    加拿大Laurentian大学交流（聚合物纳米材料、纳米复合材料、纳米催化）

2012年              加拿大McMaster大学交流（聚合物反应工程）

2014-2018年    麻省理工学院博士后（材料科学、纳米科技）

代表性论文

2018

(25)Liu, P.; Liu, A. T.; Kozawa, D.; Dong, J.; Saccone, M.; Koman, V. B.; Wang, S.; Son, Y.; Wong, M. H.; Strano, M. S. Autoperforation of 2D Materials for Generating Two Terminal Memresistive Janus Particles. Nat. Mater. 2018, Accepted.

(24) Koman, V. B.; Liu P, T.; Kozawa D.; Liu, A.; Cottrill L. A.; Son, Y.;  Lebron A. J.; Strano S. M.  Colloidal, Nanoelectronic State Machines Based on 2D Materials for Aerosolizable Electronics, Nat. Nanotechnol. 2018, https://doi.org/10.1038/s41565-018-0194-z.  

(23) Liu, P.; Cottrill, A. L.; Kozawa, D.; Koman, V. B.; Kaplan, Liu, A. T.; Tran, T.; Wong, M. H.; Strano, M. S. Emerging trends in 2D nanotechnology that are redefining our understanding of Nanocomposites. Nano Today, 2018, https://doi.org/10.1016/j.nantod.2018.04.012.

(22）Zhang Y, Liu P*, Li BG, Wang WJ*.; CO2-Triggered Recoverable Metal Catalyst Nanoreactors using Unimolecular Core–Shell Star Copolymers as Carriers. ACS Applied Nano Materials, DOI: 10.1021/acsanm. 8b00031.

2017

(21) Cottrill, A. L.; Liu, A. T.; Kunai, Y.; Koman, V. B.; Kaplan, A.; Mahajan, S. G.; Liu, P.; Toland, A. R.; Strano, M. S. Ultra-High Thermal Effusivity Materials for Resonant, Ambient Thermal Energy Harvesting. Nat. Comm. 2017, 9, 664

(20) Kunai, Y.; Liu, A. T.; Cottrill, A. L.; Koman, V. B.; Liu, P.; Kozawa, D.; Gong, X.; Strano, M. S., Observation of the Marcus Inverted Region of Electron Transfer from Asymmetric Chemical Doping of Pristine (n, m) Single-Walled Carbon Nanotubes. ‎J. Am. Chem. Soc. 2017, DOI: 10.1021/jacs.7b04314.

(19) Wang, S.; Cottrill, A. L.; Kunai, Y.; Toland, A. R.; Liu, P.; Wang, W.-J.; Strano, M. S., Microscale solid-state thermal diodes enabling ambient temperature thermal circuits for energy applications. Phys. Chem. Chem. Phys. 2017, 19, 13172.

2016

(18) Liu, P.; Jin, Z.; Katsukis, G.; Drahushuk, L. W.; Shimizu, S.; Shih, C.-J.; Wetzel, E. D.; Taggart-Scarff, J. K.; Qing, B.; Van Vliet, K. J., Layered and scrolled nanocomposites with aligned semi-infinite graphene inclusions at the platelet limit. Science 2016, 353, 364.

(17) Wong, M. H.; Giraldo, J. P.; Kwak, S.-Y.; Koman, V. B.; Sinclair, R.; Lew, T. T. S.; Bisker, G.; Liu, P.; Strano, M. S., Nitroaromatic detection and infrared communication from wild-type plants using plant nanobionics. Nat. Mater. 2016, 16, 264.

(16) Liu, P.; Strano, M. S., Toward Ambient Armor: Can New Materials Change Longstanding Concepts of Projectile Protection? Adv. Funct. Mater. 2016, 26, 943.

(15) Liu, A. T.; Kunai, Y.; Liu, P.; Kaplan, A.; Cottrill, A. L.; Smith-Dell, J. S.; Strano, M. S. Electrical Energy Gene-ration via Reversible Chemical Doping on Carbon Nanotube Fibers. Adv. Mater. 2016, 28, 9752.

(14) Son, Y.; Li, M.-Y.; Cheng, C.-C.; Wei, K.-H.; Liu, P.; Wang, Q. H.; Li, L.-J.; Strano, M. S., Observation of switchable photoresponse of a monolayer WSe2–MoS2 lateral heterostructure via photocurrent spectral atomic force microscopic imaging. Nano Lett. 2016, 16, 3571.

(13) Liu, P.; Liu, W.; Wang, W. J.; Li, B. G.; Zhu, S., A Comprehensive Review on Controlled Synthesis of Long‐Chain Branched Polyolefins: Part 1, Single Catalyst Systems. Macromol. React. Eng. 2016, 10, 156.

(12) Liu, W.; Liu, P.; Wang, W.-J.; Li, B.-G.; Zhu, S., A Comprehensive Review on Controlled Synthesis of Long-Chain-Branched Polyolefins: Part 2, Multiple Catalyst Systems and Prepolymer Modification. Macromol. React. Eng. 2016, 10, 180.

(11) Liu, P.; Liu, W.; Wang, W. J.; Li, B. G.; Zhu, S., A Comprehensive Review on Controlled Synthesis of Long‐Chain Branched Polyolefins: Part 3, Characterization of Long‐Chain Branched Polymers. Macromolecular Reaction Engineering 2016, 10.1002/mren.201600012

2015

(10) Wang, S.; Liu, P.; Wang, W.-J.; Zhang, Z.; Li, B.-G., Hyperbranched polyethylene-supported L-proline: a highly selective and recyclable organocatalyst for asymmetric aldol reactions. Catal. Sci. Technol. 2015, 5, 3798.

(09) Wei, Y.; Liu, P.; Wang, W.-J.; Li, B.-G.; Zhu, S., Well-controlled and stable emulsion ATRP of MMA with low surfactant concentration using surfactant–ligand design as the copper capture agent. Polym. Chem. 2015, 6 (15), 2837.

2014

(08) Liu, P.; Lu, W.; Wang, W.-J.; Li, B.-G.; Zhu, S., Highly CO2/N2-switchable zwitterionic surfactant for Pickering emulsions at ambient temperature. Langmuir 2014, 30, 10248.

(07) Liu, P.; Zhang, Y.; Wang, W.-J.; Li, B.-G.; Zhu, S., CO2-triggered fast micellization of a liposoluble star copolymer in water. Green Mater. 2014, 2, 82.

(06) Liu, P.; Ye, Z.; Wang, W.-J.; Li, B.-G., Synthesis of polyethylene and polystyrene miktoarm star copolymers using an “in–out” strategy. Polym. Chem. 2014, 5, 5443.

2013以前

(05) Liu, P.; Dong, Z.; Ye, Z.; Wang, W.-J.; Li, B.-G., A conveniently synthesized polyethylene gel encapsulating palladium nanoparticles as a reusable high-performance catalyst for Heck and Suzuki coupling reactions. J. Mater. Chem. A 2013, 1, 15469.

(04) Liu, P.; Ye, Z.; Wang, W.-J.; Li, B.-G., Hyperbranched Polyethylenes Encapsulating Self-Supported Palladium (II) Species as Efficient and Recyclable Catalysts for Heck Reaction. Macromolecules 2012, 46, 72.

(03) Liu, P.; Lu, W.; Wang, W.-J.; Li, B.-G.; Ye, Z.; Zhu, S., Synthesis and Characterization of PE-b-POEGMA Copolymers Prepared by Linear/Hyperbranched Telechelic Polyethylene-Initiated ATRP of Oligo(ethylene glycol) Methacrylates. In Progress in controlled radical polymerization: mechanisms and techniques, American Chemical Society: 2012; Vol. 4, 39.            

(02) Liu, P.; Landry, E.; Ye, Z.; Joly, H.; Wang, W.-J.; Li, B.-G., “Arm-first” synthesis of core-cross-linked multiarm star polyethylenes by coupling palladium-catalyzed ethylene “living” polymerization with atom-transfer radical polymerization. Macromolecules 2011, 44, 4125.

(01) Wang, W. J.; Liu, P.; Li, B. G.; Zhu, S., One‐step synthesis of hyperbranched polyethylene macroinitiator and its block copolymers with methyl methacrylate or styrene via ATRP J. Polym. Sci., Part A: Polym. Chem. 2010, 48, 3024.

sheyangqing

报告题目：二维材料及其纳米复合材料的宏量可控制造和应用研究
报告人：刘平伟研究员
报告时间：2018年9月21日（周五）下午2:30
报告地点：华中科技大学化学楼二楼一号会议室
邀请人：周兴平教授

报告人简介：
刘平伟，浙江大学“百人计划”特聘研究员。2014年博士毕业于浙江大学，2014-2018年在美国MIT化工系从事博士后研究。研究领域涉及聚合物材料、二维材料、纳米复合材料、纳米催化及微纳机器人等方面。近年在Science、Nature Materials、Nature Nanotechnology等期刊上发表论文20余篇，获中国、国际发明专利授权各1件，在层状和卷涡状二维材料/聚合物纳米复合材料、基于二维材料的智能微粒器件和微纳机器人等方向取得了创新成果，相关成果被MIT News、Angew. Chem. Int. Ed.、Nano Today、Mater. Today等权威媒体和期刊报道和评述。

报告摘要：
石墨烯及其它二维（2D）材料具有良好的机械、电学及光学等性能，将其可控地掺入到聚合物等基体材料中，形成特定的微纳分散结构，可制得具有独特性能、满足特殊要求的纳米复合材料。利用大面积、高质量2D材料作为纳米填料，可实现其在特定的空间位置如材料表面或界面上原子级精度的分散和排布，为特定功能纳米复合材料的宏量可控制造提供了新途径。这里将涉及：（1）基于可逆多缩合/终止聚合（RPTP）方法制备的结构高度有序、高结晶度的2D共价有机骨架（COF）材料及其在连续流动微型催化反应器中的应用；（2）基于连续折叠堆积和横向剪切滚动两种纳米制造新技术的二维材料增维及多功能三维复合体和微纤维的精准构造；（3）基于二维材料可控断裂和裂纹扩展控制的“自穿孔”（Autoperforation）技术及胶体微粒型电子器件的定制。