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劳长石      特聘教授

性别:

邮箱: cslao@szu.edu.cn

办公室: 机电楼S704

人才称号: “青年千人计划”专家 、深圳市海外高层次人才、

最终学位: 博士

办公电话:

导师资格: 硕士生导师

研究领域:

先进增材制造(3D打印)、新材料研制

主讲本科课程:

主讲研究生课程:

教育背景:

1997—2002年  中国科学技术大学近代物理系,获物理学本科学位
2002—2007年  美国佐治亚理工学院,获材料学博士学位,导师王中林院士

工作履历:

2008.01—2008.10,美国加州理工学院博士后,师从诺奖得主Amed  Zewail从事超快激光的研究
2008.10至2010.12,美国加州大学伯克利分校博士后研究员,师从张翔院士进行超介质材料研究              
2011.01至2011.10,美国莱姆研究公司,工程师,负责TSMC台积电14nm芯片前沿技术开发
2011.10至2013.09,美国蒙氏电子材料公司,资深科学家,负责集团的高效太阳能电池研发项目                                        
2014.10至今,    深圳大学机电与控制工程学院特聘教授,增材制造(3D打印)研究所所长

主持项目:

1、气溶胶喷墨3D打印锂离子电池系统及工艺研发
2、轻质高强陶瓷材料开发及应用
3、轻质高强陶瓷增材制造关键技术研发及应用

代表期刊论文:

1.Changyong Liu, Xingxing Cheng, Bohan Li, Shengli Mi*, Changshi Lao*. Fabrication and characterization of 3D-printed highly-porous LiFePO4 electrodes by low temperature direct writing process, Materials, 2017, 10(8), 934.
2.Changyong Liu, Renji Zhang, Yongnian Yan, Changshi Lao*. Analysis on the design of steel wire wound extrusion containers for hot extrusion process, Advances in Mechanical Engineering, 2017, 9(7), 1-12.
3.Changyong Liu, Xingxing Cheng, Changshi Lao*. The application of 3D printing in lithium-ion batteries. ICMECA2017.会议论文
4.Dr. Huang Tang, Shihao Zhuang, Prof. Zhihao Bao*,Prof. Changshi Lao,Prof. Yongfeng Mei*. Two-Step Oxidation of Mxene in the Synthesis of Layer-Stacked Anatase Titania with Enhanced Lithium-Storage Performance, CHEMELECTROCHEM, 2016,3(6): 871-876.
5.HuangTang,[a] ShihaoZhuang,[a] ZhihaoBao,*[a] Changshi Lao,[b] and Yongfeng Mei*[c] Two-Step Oxidation of Mxene in the Synthesis of LayerStacked Anatase Titania with Enhanced Lithium-Storage Performance
6.Yang D, Lao C, Zewail A H*. 4D electron diffraction reveals correlated unidirectional behavior in zinc oxide nanowires.[J]. SCIENCE, 2008, 321(5896):1660-1664.
7.Xu S, Lao C, Weintraub B, Wang, ZL*. Density-controlled growth of aligned ZnO nanowire arrays by seedless chemical approach on smooth surfaces[J]. Journal of Materials Research, 2008, 23(08): 2072-2077.
8.Mai WJ*, Zhang L, Gu YD, Huang SQ, Zhang ZF, Lao CS, Yang PH, Qiang PF, Chen, ZW, Mechanical and electrical characterization of semiconducting ZnO nanorings by direct nano-manipulation[J]. Applied Physics Letters, 2012, 101(8): 081910.
9.Kuang Q, Lao C S, Li Z, Liu YZ, Xie ZX*, Zheng LS, Wang ZL*, Enhancing the photon-and gas-sensing properties of a single SnO2 nanowire based nanodevice by nanoparticle surface functionalization[J]. The Journal of Physical Chemistry C, 2008, 112(30): 11539-11544.
10.Mai W, Gao P, Lao C, Wang ZL*, Sood AK, Polla DL, Soprano MB, Vertically aligned ZnO nanowire arrays on GaN and SiC substrates[J]. Chemical Physics Letters, 2008, 460(1): 253-256.
11.Liu J, Fei P, Song J, Wang XD, Lao CS, Tummala R, Wang ZL*, Carrier density and Schottky barrier on the performance of DC nanogenerator[J]. Nano letters, 2008, 8(1): 328-332.
12.Lao C S, Park M C, Kuang Q, Deng YL, Sood AK,  Polla DL, Wang ZL*, Giant enhancement in UV response of ZnO nanobelts by polymer surface-functionalization[J]. Journal of the American Chemical Society, 2007, 129(40): 12096-12097.
13.Mai L Q, Hu B, Chen W*, Qi YY, Lao CS, Yang RS, Dai Y, Wang ZL*, Lithiated MoO3 nanobelts with greatly improved performance for lithium batteries[J]. Advanced Materials, 2007, 19(21): 3712-3716.
14.Kuang Q, Lao C, Wang ZL*, Xie ZX*, Zheng LS, High-sensitivity humidity sensor based on a single SnO2 nanowire[J]. Journal of the American Chemical Society, 2007, 129(19): 6070-6071.
15.Lao C S, Kuang Q, Wang Z L*, Park MC, Deng YL*, Polymer functionalized piezoelectric-FET as humidity/chemical nanosensors[J]. Applied physics letters, 2007, 90(26): 262107.
16.Lao C, Li Y, Wong C P*, Wang Z L*, Enhancing the electrical and optoelectronic performance of nanobelt devices by molecular surface functionalization[J]. Nano letters, 2007, 7(5): 1323-1328.
17.Wang X D, Zhou J, Lao C S, Song JH, Xu NS, Wang ZL*, In situ field emission of density‐controlled ZnO nanowire arrays[J]. Advanced Materials, 2007, 19(12): 1627-1631.
18.Hu C G, Liu H, Dong W T, Zhang YY, Bao G, Lao CS, Wang ZL*, La (OH) 3 and La2O3 nanobelts—synthesis and physical properties[J]. Advanced Materials, 2007, 19(3): 470-474.
19.Chueh Y L, Hsieh C H, Chang M T, Chou LJ*, Lao CS, Song JH, Gan JY, Wang ZL*, RuO2 nanowires and RuO2/TiO2 core/shell nanowires: from synthesis to mechanical, optical, electrical, and photoconductive properties[J]. Advanced Materials, 2007, 19(1): 143-149.
20.Mai L Q, Lao C S, Hu B, Zhou J, Qi YY, Chen W, Gu ED, Wang ZL*, Synthesis and electrical transport of single-crystal NH4V3O8 nanobelts[J]. The Journal of Physical Chemistry B, 2006, 110(37): 18138-18141.
21.Zhou J, Liu J, Yang RS, Lao CS, Gao PX, Tummala R, Xu, NS, Wang ZL*, SiC‐Shell Nanostructures Fabricated by Replicating ZnO Nano‐objects: A Technique for Producing Hollow Nanostructures of Desired Shape[J]. Small, 2006, 2(11): 1344-1347.
22.Liu J, Gao PX, Mai WJ, Lao CS, Wang ZL*, Quantifying oxygen diffusion in ZnO nanobelt[J]. Applied physics letters, 2006, 89(6): 063125.
23.Hu C G, Liu H, Lao C S, Zhang LY, Davidovic D, Wang ZL*, Size-manipulable synthesis of single-crystalline BaMnO3 and BaTi1/2Mn1/2O3 nanorods/nanowires[J]. The Journal of Physical Chemistry B, 2006, 110(29): 14050-14054.
24.Zhou J, Lao C S, Gao PX, Mai WJ, Hughes WL, Deng SZ, Xu NS*, Wang ZL*, Nanowire as pico-gram balance at workplace atmosphere[J]. Solid State Communications, 2006, 139(5): 222-226.
25.Lao C S, Liu J, Gao PX, Zhang LY, Davidovic D, Tummala R, Wang ZL*, ZnO nanobelt/nanowire Schottky diodes formed by dielectrophoresis alignment across Au electrodes[J]. Nano Letters, 2006, 6(2): 263-266.
26.Gao P X, Lao C S, Ding Y, Wang ZL*, Metal/semiconductor core/shell nanodisks and nanotubes[J]. Advanced functional materials, 2006, 16(1): 53-62.
27.Lao C S, Gao P X, Yang R S, Zhang Y, Dai Y, Wang ZL*, Formation of double-side teethed nanocombs of ZnO and self-catalysis of Zn-terminated polar surface[J]. Chemical physics letters, 2006, 417(4): 358-362.
28.He J H, Lao C S, Chen L J*, Davidovic D, Wang ZL*, Large-scale Ni-doped ZnO nanowire arrays and electrical and optical properties[J]. Journal of the American Chemical Society, 2005, 127(47): 16376-16377.
29.Wang X, Lao C, Graugnard E, Summers CJ, Wang ZL*, Large-size liftable inverted-nanobowl sheets as reusable masks for nanolithiography[J]. Nano letters, 2005, 5(9): 1784-1788.
30.Gao P X, Ding Y, Mai W, Hughes WL, Lao CS, Wang ZL*, Conversion of zinc oxide nanobelts into superlattice-structured nanohelices[J]. Science, 2005, 309(5741): 1700-1704.
31.Gao P X, Lao C S, Hughes W L, Wang ZL*, Three-dimensional interconnected nanowire networks of ZnO[J]. Chemical physics letters, 2005, 408(1): 174-178. (ScienceDirect Top25 articles)


代表会议论文:

1.欧阳竟,陈张伟,劳长石. 喷墨打印用水基 LSCF 墨水的开发与研究. 2017.
2.刘长勇, 程星星,许丰,陈张伟,劳长石,低温沉积3D打印制备锂离子电池 LiFePO4 正极及其电化学性能.2017
3.A.K. Sood*, Y.R. Puri, W.J. Mai, P.X. Gao, C.S. Lao, Z.L. Wang, D.L. Polla, M.B. Soprano Proc, ZnO Nanostructures for optoelectronic Applications, SPIE 6959, Micro and Nanotechnologies for Space 2008.
4.A.K. Sood*, Y.R. Puri, C.S. Lao, W.J. Mai, P.X. Gao, S. Xu, Z.L. Wang, D.L. Polla, M.B. Soprano and N.K. Dhar, A Review of Growth and Characterization of ZnO Nanostructures for Optical Applications,  SPIE conference 2007.
6.J. Liu, C.S. Lao, R. Tummala and Z.L. Wang, Packaging of ZnO nanobelts as nanosensors: Synthesis, Alignment and Characterization, IPCET conference 2005.

代表专利:

1.刘长勇, 劳长石, 肖崇梁, 库志喻,一种三维锂电池制造方法, 专利申请号:201610523164.1
2.刘长勇, 劳长石, 肖崇梁, 库志喻,一种金属3D打印模具异型水路性能测试系统, 专利申请号:201610914757.0
3.劳长石,傅岳龙,何奕.一种光敏树脂及其制备方法. 专利申请号:201710896494.X
4.陈张伟 劳长石 欧阳竟. 一种喷墨打印用陶瓷墨水及其制备方法,201710878738.1

获得荣誉:

“青年千人计划”专家    
广东省五四青年奖章提名奖    
国侨办第十届世界华裔杰出青年代表
深圳市海外高层次人才    
国家优秀自费留学生