王 俊 研究员
邮箱:jwang@siom.ac.cn
中国科学院上海光学精密机械研究所
导师介绍:
王俊,中科院上海光机所研究员、博士生导师,微纳光电子功能材料实验室主任。主要研究领域为低维半导体非线性光学。作为国际上最早开展二维材料非线性光学工作的研究者之一,王俊及其合作者揭示了石墨烯、过渡金属硫化物和黑磷等重要二维材料的超快非线性光学特性,多项成果获国际光电领域知名同行专家的高度评价和引用。在Nature子刊、Advanced Materials、ACS Nano、Laser & Photonics Reviews等SCI期刊发表论文180余篇;入选国家“科技创新领军人才”、国家首批“青年拔尖人才”、国家自然科学基金委“优秀青年科学基金”、 爱思唯尔(Elsevier)2020年中国高被引学者;在SPIE、CLEO-PR、MRS等学术会议做邀请报告60余次。
研究方向:
光电集成芯片、光计算芯片、微纳光电子器件、二维半导体
教育背景:
2006年博士毕业于香港中文大学材料科学与工程学专业
2003年硕士毕业于香港中文大学物理学专业
2001年本科毕业于西北大学物理学基地班
工作经历:
2010年12月-至今中国科学院上海光学精密机械研究所 研究员
2010年5月-2010年12月爱尔兰聚合物材料研究中心科技顾问
2006年12月-2010年4月 爱尔兰都柏林大学圣三一学院物理系 博士后
科研成果及获奖情况:
1.2020年,“上海市先进工作者”荣誉称号
2.2019年,国家“科技创新领军人才”称号
3.2019年,“创新人才推进计划中青年科技创新领军人才”称号
4.2018年,第十二届中国硅酸盐学会青年科技奖
5.2017年,上海市优秀学术带头人
6.2016年,中科院上海分院“第五届杰出青年科技创新人才”
7.2016年,2015年度上海市青年五四奖章标兵
8.2016年,2015年度上海光机所正高四级研究员考核优秀
9.2015年,国家自然科学基金“优秀青年科学基金”
10.2013年,国家首批“青年拔尖人才”
11.2013年,上海市科技系统青年五四奖章(个人)
12.2013年,中科院“青年创新促进会”优秀会员
13.2013年,中科院第四届“青年科学之星”信息科学领域铜奖
14.2012年,上海市“浦江人才”
15.2012年,上海市嘉定区“青年领军人才”
16.2011年,中科院人才计划(引进国外杰出人才)
近五年代表性论文:
1.Bacterially synthesized tellurium nanostructures for broadband ultrafast nonlinear optical applications,Nature Communications10, 3985 (2019).
2.Surface-state assisted carrier recombination and optical nonlinearities in bulk to 2D nonlayered PtS,ACS Nano13, 13390-13402(2019).
3.Nonlinear optical signatures of the transition from semiconductor to semimetal in PtSe2,Laser Photonics Review13, 1900052(2019).
4.Machine learning analysis of Raman spectra of MoS2,Nanomaterials10, 2223 (2020).
5.Auger process in ultrathin ReS2,Optical Materials Express10, 1092-1104 (2020).
6.Two-dimensional graphyne for ultrafast nonlinear optical applications,Optical Materials Express10, 293-301 (2020).
7.Organic small molecules covalently functionalized molybdenum disulfide hybrid material for optical limiting,Bulletin of the Chemical Society of Japan93,26 (2020).
8.Direct observation of interlayer coherent acoustic phonon dynamics in bilayer and few-layer PtSe2,Photonics Research7(12), 1416-1424 (2019).
9.WS2 based 523 MHz mode-locked erbium-doped fiber laser for microwave photonic application,Optical Materials Express9, 4688-4699 (2019).
10.Two-photon absorption towards pulse modulation in mechanically exfoliated and CVD monolayer cascaded MoS2structures,Chinese Optics Letters17(8), 081901(2019).
11.Layer-modulated two-photon absorption in MoS2: probing the shift of the excitonic dark state and band-edge,Photonics Research7(7), 762-770 (2019).
12.Enhanced two-photon absorption and two-photon luminescence in monolayer MoS2 and WS2 by defect repairing,Optics Express27(10), 13744-13753 (2019).
13.Competition between stimulated Brillouin scattering and two-photon absorption in dispersed boron nitride,Optics Express27(8), 11029-11036 (2019).
14.Liquid exfoliation of two-dimensional PbI2nanosheets for ultrafast photonics,ACS Photonics6, 1051-1057 (2019).
15.Reduced graphene oxide chemically modified with aggregation-induced emission polymer for solid-state optical limiter,The Chemistry-A European Journal24, 19317-19322 (2018).
16.Tailoring the nonlinear optical performances of two-dimensional MoS2nanofilms via defect engineering,Nanoscale10, 17924-17932 (2018).
17.Saturation of two-photon absorption in layered transition metal dichalcogenides: experiment and theory,ACS Photonics5, 1558-1565 (2018).
18.Stimulated brillouin scattering in dispersed graphene,Optics Express26(26), 34346-34365 (2018).
19.Nonlinear absorption induced transparency and optical limiting of black phosphorus nanosheets,ACS Photonics4, 3063-3070 (2017).
20.All-optical phase shifter and switch near 1550nm using tungsten disulfide (WS2) deposited tapered fiber,Optics Express25(15), 17639-17649 (2017).
21.Layered MoS2and carbon nanotube core-shell structured nanocomposites for enhanced nonlinear optical performances,The Chemistry-A European Journal23, 3321-3327 (2017).
22.Exfoliation of dtable 2D black phosphorous for device fabrication,Chemistry of Materials29, 6445-6456 (2017).
23.Optically induced transparency and extinction in dispersed MoS2, MoSe2and graphene nanosheets,Advanced Optical Materials5, 1700543 (2017).
24.Slow and fast absorption saturation of black phosphorus: experiment and modelling,Nanoscale8, 17374 - 17382 (2016).
25.Size-dependent saturable absorption and mode-locking of dispersed black phosphorus nanosheets,Optical Materials Express6(10), 3159-3168(2016).
26.Dispersion of nonlinear refractive index in layered WS2and WSe2semiconductor films induced by two photon absorption,Optics Letters41(17), 3936-3939(2016).
27.Ultrafastnonlinearexcitationdynamics ofblackphosphorusnanosheets fromvisible tomid-infrared,ACS Nano10 (7), 6923-6932 (2016).
28.Graphene and its derivatives for laser protection,Progress in Materials Science84, 118-157 (2016).
29.Optical identification of layered MoS2via characteristic matrix method,Nanoscale8, 1210-1215 (2016).
30.Direct synthesis of large-scale hierarchical MoS2films nanostructured with orthogonally oriented vertically and horizontally aligned layers,Nanoscale8, 431 (2016).
