林现庆，山东济宁人，中共党员，博士，副教授，硕士生导师。
一、教育背景与工作经历
2018.1-至今,浙江工业大学,理学院,副教授
2017.9-2018.9,密歇根州立大学,物理与天文学系,访问****
2014.7-2017.12,浙江工业大学,理学院,讲师
2009.9–2014.7,清华大学,物理学,博士
2005.9–2009.7,中国石油大学（华东）,应用物理学,学士
二、主要研究领域：
主要从事低维量子物质的电子结构及其器件的计算研究。研究对象包括魔幻角双层石墨烯、各种构型的石墨烯器件、二维磁性材料、二维拓扑绝缘体等。所有的研究均紧密结合最新的实验进展，力图解释实验结果并预言新的物理现象。在所研究领域共发表SCI论文22篇，其中第一或通信作者论文共18篇。论文累计引用达到400次。
三、主持项目
1.国家自然科学基金面上项目，**，基于双层石墨烯的层状异质结构及其性质的研究，2020.01-2023.12，54万元，在研，主持
2.国家自然科学基金青年项目，**，基于二维过渡金属硫属化合物的纳米结构中的磁性研究，2016.01-2018.12，20万元，已结题，主持
3.浙江省自然科学基金青年项目, LQ16A040006,单轴应变对二维拓扑绝缘体电子与拓扑性质的调控研究,2016.01-2018.12，5万元，已结题，主持
四、论文著作
(1)X. Lin, H. Zhu, and J. Ni, Pressure-induced gap modulation and topological transitions in twisted bilayer and twisted double bilayer graphene,Physical Review B101, 155405 (2020).
(2)X. Linand D. Tomanek, Periodically Gated Bilayer Graphene as an Electronic Metamaterial,Physical Review Applied13, 034034 (2020).
(3)X. Linand J. Ni, Effective lattice model of graphene moiré superlattices on hexagonal boron nitride,Physical Review B100, 195413 (2019).
(4)J. Wang, C. Dong, Y. Wei,X. Lin, et al. Magnetostriction, Soft Magnetism, and Microwave Properties in Co?Fe?C Alloy Films,Physical Review Applied12, 034011 (2019).
(5)X. Linand J. Ni, Layer-dependent intrinsic anomalous Hall effect in Fe3GeTe2,Physical Review B100, 085403 (2019).
(6)X. Linand D. Tomanek, Minimum model for the electronic structure of twisted bilayer graphene and related structures,Physical Review B98, 081410 (2018).
(7)X. Lin, D. Liu, and D. Tomanek, Shear instability in twisted bilayer graphene,Physical Review B98, 195432 (2018).
(8)D. Liu,X. Lin, and D. Tomanek, Microscopic Mechanism of the Helix-to-Layer Transformation in Elemental Group VI Solids,Nano Letters18, 4908 (2018).
(9)X. Linand J. Ni, Topologically insulating states in ternary transition metal dichalcogenides,Journal of Applied Physics121, 024303 (2017).
(10)X. Linand J. Ni, Topological phase transition due to strain-controlled evolution of the inverted bands in 1T '-MX2,Physical Review B95, 245436 (2017).
(11)X. Linand J. Ni, Switch effect of the nonquantized intrinsic spin Hall conductivity in monolayered monoclinic transition metal dichalcogenides,Journal of Physics-Condensed Matter29, 295302 (2017).
(12)X. Linand J. Ni, Magnetism and electronic phase transitions in monoclinic transition metal dichalcogenides with transition metal atoms embedded,Journal of Applied Physics120, 064305 (2016).
(13)X. Linand J. Ni, Dirac points and van Hove singularities of silicene under uniaxial strain,Journal of Applied Physics117, 164305 (2015).
(14)X. Linand J. Ni, Insulator-metal transition in 1T '-MoS2 under uniaxial strain,Physics Letters A379, 2883 (2015).
(15)R. Zheng,X. Lin, and J. Ni, The extraordinary magnetoelectric response in silicene doped with Fe and Cr atoms,Applied Physics Letters105, 092410 (2014).
(16)X. Linand J. Ni, Charge and magnetic states of Mn-, Fe-, and Co-doped monolayer MoS2,Journal of Applied Physics116, 044311 (2014).
(17)X. Lin, C. Lian, J. Ni, and Iop, in 3rd International Meeting on Silicene, Tailoring of the structural, energetic and electronic properties of silicene-based nanostructures, edited by (2014), Vol. 491.
(18)X. Lin, J. Ni, and C. Fang, Adsorption capacity of H2O, NH3, CO, and NO2 on the pristine graphene,Journal of Applied Physics113, 034306 (2013).
(19)X. Linand J. Ni, Electronic and magnetic properties of substitutionally Fe-, Co-, and Ni-doped BC3 honeycomb structure,Journal of Applied Physics111, 034309 (2012).
(20)X. Linand J. Ni, Much stronger binding of metal adatoms to silicene than to graphene: A first-principles study,Physical Review B86, 075440 (2012).
(21)L. Feng,X. Lin, L. Meng, J.-C. Nie, J. Ni, and L. He, Flat bands near Fermi level of topological line defects on graphite,Applied Physics Letters101, 113113 (2012).
(22)X. Linand J. Ni, Half-metallicity in graphene nanoribbons with topological line defects,Physical Review B84, 075461 (2011).






教师简介
林现庆
林现庆，山东济宁人，中共党员，博士，副教授，硕士生导师。
一、教育背景与工作经历
2018.1-至今,浙江工业大学,理学院,副教授
2017.9-2018.9,密歇根州立大学,物理与天文学系,访问****
2014.7-2017.12,浙江工业大学,理学院,讲师
2009.9–2014.7,清华大学,物理学,博士
2005.9–2009.7,中国石油大学（华东）,应用物理学,学士
二、主要研究领域：
主要从事低维量子物质的电子结构及其器件的计算研究。研究对象包括魔幻角双层石墨烯、各种构型的石墨烯器件、二维磁性材料、二维拓扑绝缘体等。所有的研究均紧密结合最新的实验进展，力图解释实验结果并预言新的物理现象。在所研究领域共发表SCI论文22篇，其中第一或通信作者论文共18篇。论文累计引用达到400次。
三、主持项目
1.国家自然科学基金面上项目，**，基于双层石墨烯的层状异质结构及其性质的研究，2020.01-2023.12，54万元，在研，主持
2.国家自然科学基金青年项目，**，基于二维过渡金属硫属化合物的纳米结构中的磁性研究，2016.01-2018.12，20万元，已结题，主持
3.浙江省自然科学基金青年项目, LQ16A040006,单轴应变对二维拓扑绝缘体电子与拓扑性质的调控研究,2016.01-2018.12，5万元，已结题，主持
四、论文著作
(1)X. Lin, H. Zhu, and J. Ni, Pressure-induced gap modulation and topological transitions in twisted bilayer and twisted double bilayer graphene,Physical Review B101, 155405 (2020).
(2)X. Linand D. Tomanek, Periodically Gated Bilayer Graphene as an Electronic Metamaterial,Physical Review Applied13, 034034 (2020).
(3)X. Linand J. Ni, Effective lattice model of graphene moiré superlattices on hexagonal boron nitride,Physical Review B100, 195413 (2019).
(4)J. Wang, C. Dong, Y. Wei,X. Lin, et al. Magnetostriction, Soft Magnetism, and Microwave Properties in Co?Fe?C Alloy Films,Physical Review Applied12, 034011 (2019).
(5)X. Linand J. Ni, Layer-dependent intrinsic anomalous Hall effect in Fe3GeTe2,Physical Review B100, 085403 (2019).
(6)X. Linand D. Tomanek, Minimum model for the electronic structure of twisted bilayer graphene and related structures,Physical Review B98, 081410 (2018).
(7)X. Lin, D. Liu, and D. Tomanek, Shear instability in twisted bilayer graphene,Physical Review B98, 195432 (2018).
(8)D. Liu,X. Lin, and D. Tomanek, Microscopic Mechanism of the Helix-to-Layer Transformation in Elemental Group VI Solids,Nano Letters18, 4908 (2018).
(9)X. Linand J. Ni, Topologically insulating states in ternary transition metal dichalcogenides,Journal of Applied Physics121, 024303 (2017).
(10)X. Linand J. Ni, Topological phase transition due to strain-controlled evolution of the inverted bands in 1T '-MX2,Physical Review B95, 245436 (2017).
(11)X. Linand J. Ni, Switch effect of the nonquantized intrinsic spin Hall conductivity in monolayered monoclinic transition metal dichalcogenides,Journal of Physics-Condensed Matter29, 295302 (2017).
(12)X. Linand J. Ni, Magnetism and electronic phase transitions in monoclinic transition metal dichalcogenides with transition metal atoms embedded,Journal of Applied Physics120, 064305 (2016).
(13)X. Linand J. Ni, Dirac points and van Hove singularities of silicene under uniaxial strain,Journal of Applied Physics117, 164305 (2015).
(14)X. Linand J. Ni, Insulator-metal transition in 1T '-MoS2 under uniaxial strain,Physics Letters A379, 2883 (2015).
(15)R. Zheng,X. Lin, and J. Ni, The extraordinary magnetoelectric response in silicene doped with Fe and Cr atoms,Applied Physics Letters105, 092410 (2014).
(16)X. Linand J. Ni, Charge and magnetic states of Mn-, Fe-, and Co-doped monolayer MoS2,Journal of Applied Physics116, 044311 (2014).
(17)X. Lin, C. Lian, J. Ni, and Iop, in 3rd International Meeting on Silicene, Tailoring of the structural, energetic and electronic properties of silicene-based nanostructures, edited by (2014), Vol. 491.
(18)X. Lin, J. Ni, and C. Fang, Adsorption capacity of H2O, NH3, CO, and NO2 on the pristine graphene,Journal of Applied Physics113, 034306 (2013).
(19)X. Linand J. Ni, Electronic and magnetic properties of substitutionally Fe-, Co-, and Ni-doped BC3 honeycomb structure,Journal of Applied Physics111, 034309 (2012).
(20)X. Linand J. Ni, Much stronger binding of metal adatoms to silicene than to graphene: A first-principles study,Physical Review B86, 075440 (2012).
(21)L. Feng,X. Lin, L. Meng, J.-C. Nie, J. Ni, and L. He, Flat bands near Fermi level of topological line defects on graphite,Applied Physics Letters101, 113113 (2012).
(22)X. Linand J. Ni, Half-metallicity in graphene nanoribbons with topological line defects,Physical Review B84, 075461 (2011).