近年主要论著
*通讯作者;#共同第一作者
1 Zhihui Yan andShudongWang*. Interlayer excitons in MoS2/CSiH2/WS2heterostructures: the role of the Janus intermediate layer.Journal of Physics: Condensed Matter,2025,37,075002.
2 Zhe Zhang andShudongWang*. Diverse excitonic phenomena in asymmetric trilayer transition metal dichalcogenide Heterostructures.The Journal of Physical Chemistry Letters,2024,15,10104
3 P-Y Chen, Zhen Quan, andShudongWang*. Excitonic optical properties in monolayer SnP2S6.Chinese Physics B,2024, 33, 107105.(编辑推荐)
4 H-L Cui, Zhen Quan, andShudongWang*. Strain tunable excitonic optical properties in monolayer Ga2O3.Chinese Physics B,2024, 33, 107104.
5 Yaning Li andShudongWang*. Interlayer excitons in WSO/MoSi2N4Heterostructures.Results in Physics,2024, 62, 107815
6 Yaning Li, Zhihui Yan andShudongWang*. Spin character of interlayer excitons in tungsten dichalcogenide heterostructures:GW-BSE calculations.Physical Review B,2024, 109, 045422.
7 Zhihui Yan, Yaning Li andShudongWang*. Spin Mixing Control of Interlayer Excitons in ZrS2/ZrNCl Heterostructures.The Journal of Physical Chemistry C,2023,127,20939.
8 L G Du andS D Wang*. Pressure-tuning the interlayer excitons in the GaS/HfS2heterobilayer: A many-body perturbation simulation.AppliedSurface Science,2023,614,156272.
9 Rongtian Pang andShudongWang*. Dipole moment and pressure dependent interlayer excitons in MoSSe/WSSe heterostructures.Nanoscale,2022,14, 3416.(封面论文)
10 X R Hou andS D Wang*.Tunable interlayer excitons in two-dimensional SiC/MoSSe van der Waals heterostructures.AppliedSurface Science,2021,546,149144.
11 X Zhang,R TPang, X R Hou andS D Wang*.Stacking-tailoring quasiparticle energies and interlayer excitons in bilayer Janus MoSSe.New Journal of Physics,2021,23,013003.
12 J LMa,A SNissimagoudar,S D Wangand W Li*. High Thermoelectric Figure of Merit of Full-Heusler Ba2AuX (X = As, Sb, and Bi).Physica Status Solidi-Rapid Research Letters,2020, 14, 2000084.
13 Y Luo, G j Zhao*andS D Wang*.The electron-phonon scattering and carrier mobility in monolayer AsSb.Phys. Chem. Chem. Phys.,2020, 22, 5688.
14 X T Bu andS D Wang*. Electron-phonon scattering and mean free paths in D-carbon.Phys. Chem. Chem. Phys.,2020, 22, 4010.
15 X T Bu andS D Wang*.Electron-phonon scattering and excitonic effects in T-carbon.RSC Advances,2020, 10, 24515.
16 R Guo, X T Bu,S D Wang*and G J Zhao*. Enhanced electron-phonon scattering in Janus MoSSe.New Journal of Physics,2019,21, 113040.
17 RGuo, G J Zhao andSDWang*.The hot carrier dynamics of graphitic carbon nitride/molybdenum disulfide heterojunctions.J. Phys. D: Appl. Phys.,2019,52, 385107.
18 R Guo andS D Wang*.Anion-dependent Hot CarrierDynamics inChalcogenide Perovskites SrSnX3(X=S, Se).The Journal of Physical Chemistry C,2019,123,29.
19 X L Fan, G J Zhao andSDWang*.Electron–phonon interaction and scattering in phosphorene.J. Phys. D: Appl. Phys.,2018,51,155301.
20 R Denk#, A Lodi-Rizzini#,SDWang#,et al.Probing optical excitations in chevron-like armchair graphene nanoribbons.Nanoscale,2017, 9, 18326.
21S DWang*and R Guo.Relaxation of the photoexcited electrons in chevron-type graphene nanoribbons: Many-body theory and nonadiabatic molecular dynamics modeling.Carbon,2017,124, 308.
22S DWang*, W H Wang, and G J Zhao. Thermal transport properties of antimonene: anab initiostudy.Phys. Chem. Chem. Phys.,2016, 18, 31217.
23SDWang*.Optical response and excitonic effects in graphene nanoribbons derived from biphenylene.Materials Letters,2016,167, 258.
24SDWang, Y H Li, J Yip, and J L Wang. Theexcitonic effects in single and double-walled boron nitrid nanotubes.The Journal of Chemical Physics,2014,140, 244701.
25SDWang, J L Wang.Quasiparticle energies and optical excitations in chevron-type graphene nanoribbon.The Journal of Physical Chemistry C,2012,116,10193.
26SDWang, Q Chen, andJ L Wang.Optical properties of boron nitride nanoribbons: Excitonic effects.Applied Physics Letters.2011,99,063114.
27SDWang,L Y Zhu, Q Chen,J L Wang, and F Ding.Stability and electronic structure of hydrogen passivated few atomic layer silicon films: A theoretical exploration.Journal of Applied Physics,2011, 109,053516.
28 R Denk, M Hohage, P Zeppenfeld, J Cai, C A Pignedoli, H Söde, R Fasel, X Feng, K Müllen,SDWang, D Prezzi, A Ferretti, A Ruini, E Molinari, and P Ruffieux. Exciton-dominated optical response of ultra-narrow graphene nanoribbons.Nature Communications.2014,5,4253.