刘建伟


/uploads/image/2020/03/04/07976713e17e7f9b481973351f810f11.jpg 姓  名: 刘建伟
 地  址: 中国科学技术大学 化学系
 邮  编:230026
 电  话:0551-63600169
 电  邮:




/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 教育与科研经历
  2019.12-至今特任教授      中国科学技术大学
  2017.04-2019.11副教授       中国科学技术大学
  2013.06-2017.03

特任副研究员    中国科学技术大学

  2007.09-2013.05博士研究生     中国科学技术大学
  2003.09-2007.07本科生       合肥工业大学


/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 目前研究方向
  1.宏观尺度纳米组装体结构的设计
  2.纳米组装体结构和组分设计对性能的提升机制
  3.纳米组装体材料在柔性器件领域中的应用


/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 代表性论文
  36.wang, j.-l.†;  jiang, h.j.†; he, z; liu, j.-w.*; wang, r; huang, w. r.; feng, l. t.; ren, x. f.; hou, z. h.; yu, s.-h.* radial nanowire assemblies under rotating magnetic field ena-bled efficient charge separation. nano lett. 2020, in press.
  35.chen, q. x†; yu, c.x.†;  li, h.-h.;  he, z.; liu, j.-w.* composition modulation of pt-based nanowire electrocatalysts enhances methanol oxidation performance  inorg. chem. 2020,  59 (2), 1376-1382.
  34.he, z.;† yang, y.†; liang,  h. w.; liu, j.-w.*; yu, s.-h.* nanowire genome: a magic tool box for one-dimensional nanostructures.  adv. mater. 2019,  1902807.
  33.chen, q. x; liu, y. x.; qi, x. z.;  liu, j.-w.*;  jiang, h. j.*; wang, j.-l.; he;ren, x. f.; hou z. h.;  yu, s.-h.* ordered nanostructure enhances electrocatalytic performance by directional micro-electric field. j. am. chem. soc. 2019, 141(27), 10729-10735.
  32.huang, w-r; yu, c.x. , y. r. lu, h. muhammad, wang, j.-l.; he, z. , liu, j.-w.*; yu, s.-h.*, mass-productionof flexible and transparent te-au nylon sers substrate with excellent mechanical stability. nano research, 2019,  12(6), 1483-1488.
  31.zhan h.j., wu k. j., hu y. l., liu, j.-w.*, h. li, x. guo, j. xu, y.yang, z.l. yu, h.l.  gao, x. s.  luo, j. f. chen,  ni y.,* and yu, s.-h.*, biomimetic carbon tube aerogel enables super-elasticity and thermal insulation. chem, 2019, 5(7), 1871-1882.
  30.huang, w-r; he, z.; wang, j.-l.;  liu, j.-w.*; yu, s.-h.*,  mass-production of nanowire-nylon flexible transparent smart windows for pm2.5 capture. isience, 2019, 12, 333-341.
  29.wang, j.-l.; hassan, m.†; liu, j.-w.*; yu, s.-h.*,  nanowire assemblies for flexible electronic devices: recent advances and perspectives. adv. mater. 2018,  1803430.
  28.he, z.†; jiang, h.j.†; wu, l.l.†; .; liu, j.-w.*; geng, w.; xiao, w.; jin-long, w.; hou. z. h.; chen, g*.; yu, s.-h.*, , real‐time probing of nanowire assembly kinetics at air‐water interface by in situ synchrotron x‐ray scattering. angew. chem. int. ed. 2018, 57, 8130-8134.
  27.he, z.†; hassan, m.†; ju, h.-x.; wang, r.; wang, j.-l.; chen, j.-f.; zhu, j.-f.; liu, j.-w.*; yu, s.-h.*, stability and protection of nanowire devices in air. nano res. 2017, 11, 3353-3361.
  26.yang, y.†; wang, j. l.†; liu, l.; wang, z. h.; liu, j. w.*; yu, s. h.*, a room-temperature environmentally friendly solution process to assemble silver nanowire architectures for flexible transparent electrodes. nanoscale 2017, 9(1), 52-55.
  25.wang, j.-l.; lu, y.-r.; li, h.-h.; liu, j.-w.*; yu, s.-h.*, large area co-assembly of nanowires for flexible transparent smart windows. j. am. chem. soc. 2017, 139, 9921-9926.
  24.he, z.;† yang, y.†; liu, j.-w.*; yu, s.-h.*, emerging tellurium nanostructures: controllable synthesis and their applications. chem. soc. rev. 2017, 46, 2732-2753.
  23.hassan, m.†; wang, z.-h.†; huang, w.-r.; li, m.-q.; liu, j.-w.*; chen, j.-f.*, ultrathin tungsten oxide nanowires/reduced graphene oxide composites for toluene sensing. sensors 2017, 17 (10), 2245.
  22.yu, x.-f.; mao, l.-b.; ge, j.; yu, z.-l.; liu, j.-w.*; yu, s.-h.*, three-dimensional melamine sponge loaded with au/ceria nanowires for continuous reduction of p-nitrophenol in a consecutive flow system. science bulletin 2016, 61 (9), 700-705.
  21.yang, y.; liu, j.-w.*; yu, s.-h.*, coiling ultrathin tellurium nanowires into nanorings by pickering emulsion. chem. commun. 2016, 52 (52), 8091-8094.
  20.xu, j.†; xin, s.†; liu, j.-w.*; wang, j.-l.; lei, y.; yu, s.-h.*, elastic carbon nanotube aerogel meets tellurium nanowires: a binder- and collector-free electrode for li-te batteries. adv. funct. mater. 2016, 26 (21), 3580-3588.
  19.xu, j.†; wang, z.-h.†; li, h.-h.; liu, j.-w.*; yu, s.-h.*, templating synthesis of ternary ptpdte nanowires with tunable diameter for methanol electrooxidation. crystengcomm 2016, 18 (22), 4038-4041.
  18.wu, q.-s.; liu, j.-w.*; wang, g.-s.; chen, s.-f.; yu, s.-h.*, a surfactant-free route to synthesize ba x sr1−x tio3 nanoparticles at room temperature, their dielectric and microwave absorption properties. science china materials 2016, 609-617.
  17.wang, j.-l.; wang, z.-h.; liu, j.-w.*; yu, s.-h.*, recycling valuable silver from waste generated in diverse nanotemplate reactions. science china materials 2016,59 (7), 538-546.
  16.liu, j.-w.†; xu, j.†; hu, w.†; yang, j.-l.; yu, s.-h.*, first systematic synthesis of tellurium nanostructures and their optical property: from nanoparticles, to nanorods, nanowires, and nanotubes. chemnanomat 2016, 167-170.
  15.yu, x. f.†; liu, j. w.†; cong, h. p.; xue, l.; arshad, m. n.; albar, h. a.; sobahi, t. r.; gao, q.; yu, s. h.*, template- and surfactant-free synthesis of ultrathin ceo2 nanowires in a mixed solvent and their superior adsorption capability for water treatment. chem sci 2015, 6 (4), 2511-2515.
  14.wang, j. l.†; liu, j. w.†; lu, b. z.; lu, y. r.; ge, j.; wu, z. y.; wang, z. h.; arshad, m. n.; yu, s. h., recycling nanowire templates for multiplex templating synthesis: a green and sustainable strategy. chem-eur j 2015, 21 (13), 4935-4939.
  13.liu, j.-w.; yu, s.-h., emergent motifs of macroscopic nanowire assemblies. natl. sci. rev. 2015, 2 (4), 392-393.
  12.liu, j. w.; wang, j. l.; wang, z. h.; huang, w. r.; yu, s. h.*, manipulating nanowire assembly for flexible transparent electrodes. angew. chem. int. ed. 2014, 53 (49), 13477-13482.
  11.zhang, s. y.†; liu, j. w.†; zhang, c. l.; yu, s. h.*, co-assembled thin films of ag nanowires and functional nanoparticles at the liquid-liquid interface by shaking. nanoscale 2013, 5 (10), 4223-4229.
  10.liu, j.-w.; liang, h.-w.; yu, s.-h.*, macroscopic-scale nanowire assemblies and their functionalities. journal of university of science and technology of china 2013, 43 (11), 870-876.
  9.liu, j.-w.; huang, w.-r.; gong, m.; zhang, m.; wang, j.-l.; zheng, j.; yu, s.-h.*, flexible electronics: ultrathin hetero-nanowire-based flexible electronics with tunable conductivity. adv. mater. 2013, 25 (41), 5910-5915.
  8.liu, j. w.; zheng, j.; wang, j. l.; xu, j.; li, h. h.; yu, s. h.*, ultrathin w18o49 nanowire assemblies for electrochromic devices. nano lett. 2013, 13 (8), 3589-93.
  7.liu, j.-w.; xu, j.; ni, y.; fan, f.-j.; zhang, c.-l.; yu, s.-h.*, a family of carbon-based nanocomposite tubular structures created by in situ electron beam irradiation. acs nano 2012, 6 (5), 4500-4507.
  6.liu, j.-w.; xu, j.; liang, h.-w.; wang, k.; yu, s.-h.*, macroscale ordered ultrathin telluride nanowire films, and tellurium/telluride hetero-nanowire films. angew. chem. int. ed. 2012, 51 (30), 7420-7425.
  5.liu, j.-w.; wang, j.-l.; huang, w.-r.; yu, l.; ren, x.-f.; wen, w.-c.; yu, s.-h.*, ordering ag nanowire arrays by a glass capillary: a portable, reusable and durable sers substrate. sci. rep. 2012, 2, 987.
  4.liu, j.-w.; liang, h.-w.; yu, s.-h.*, macroscopic-scale assembled nanowire thin films and their functionalities. chem. rev. 2012, 112 (8), 4770-4799.
  3.liu, j. w.†; zhang, s. y.;† qi, h.; wen, w. c.; yu, s. h.*, a general strategy for self-assembly of nanosized building blocks on liquid/liquid interfaces. small 2012, 8 (15), 2412-20.
  2.liu, j. w.; zhu, j. h.; zhang, c. l.; liang, h. w.; yu, s. h.*, mesostructured assemblies of ultrathin superlong tellurium nanowires and their photoconductivity. j. am. chem. soc. 2010, 132 (26), 8945-8952.
  1.liu, j. w.; chen, f.; zhang, m.; qi, h.; zhang, c. l.; yu, s. h*., rapid microwave-assisted synthesis of uniform ultra long te nanowires, optical property, and chemical stability. langmuir 2010, 26 (13), 11372-11377.


刘建伟-皇冠体育平台

网站地图