2022年:
[1] Z.-Z. Lin*, X.-M. Li, X.-W. Chen and Xi Chen*, CO2 Reduction on Single-Atom Ir Catalysts with Chemical Functionalizations Li storage material and Li battery anode, Phys. Chem. Chem. Phys. 24, 3733-3740 (2022).
[2] X.-M. Li, Z.-Z. Lin*, L.-R. Cheng and Xi Chen, Layered MoSi2N4 as electrode material of Zn-air battery, Phys. Status Solidi RRL 16, 2200007 (2022).
[3] X. Chen and Z.-Z. Lin*, 2D spin transport through graphene-MnBi2Te4 heterojunction, Nanotechnology 33, 325201 (2022).
2021年:
[1] L.-R. Cheng, Z.-Z. Lin*, X.-M. Li and Xi Chen*, Can T-carbon serve as Li storage material and Li battery anode?, Mat. Adv. 2, 4694-4701 (2021).
[2] L.-R. Cheng and Z.-Z. Lin*, Toward Two-Dimensional Ionic Crystals with Intrinsic Ferromagnetism, Phys. Lett. A 395, 127229 (2021).
[3] X. Chen, Z.-Z. Lin* and L.-R. Cheng, Origin of itinerant ferromagnetism in two-dimensional Fe3GeTe2,Chin. Phys. B 30, 047502 (2021).
2020年:
[1] Z.-Z. Lin* and X. Chen, Ultrathin Scattering Spin Filter and Magnetic Tunnel Junction Implemented by Ferromagnetic 2D van der Waals Material, Adv. Elec. Mat. 6, 1900968 (2020).
[2] Z.-Z. Lin*, X. Chen, C. Yin, L. Yue and F.-X. Meng, Electrochemical CO2 Reduction in Confined Space: Enhanced Activity of Metal Catalysts by Graphene Overlayer, Int. J. Energ. Res. 44, 784 (2020).
[3] Z.-Z. Lin* and X. Chen, Tunable massive Dirac fermions in ferromagnetic Fe3Sn2 kagome lattice, Phys. Status Solidi RRL 14, 1900705 (2020).
[4] Z.-Z. Lin* and X. Chen, 1T GdN2 Monolayer — Spin-Orbit Induced Magnetic Dirac Semiconductor stable at Room Temperature, Appl. Surf. Sci. 529, 147129 (2020).
2019年:
[1] X. Chen*, Z.-Z. Lin, M. Ju and L.-X. Guo*, Confined electrochemical catalysis under cover: Enhanced CO2 reduction at the interface between graphdiyne and Cu surface, Appl. Surf. Sci. 479, 685 (2019).
2018年:
[1] X. Chen, Z.-Z. Lin* and M. Ju, Controllable Band Alignment Transition in InSe-MoS2 van der Waals Heterostructure, Phys. Status Solidi RRL 12, 1800102 (2018).
[2] X. Chen and Z.-Z. Lin*, A Primary Exploration to Quasi-Two-Dimensional Rare-Earth Ferromagnetic Particles: Holmium-Doped MoS2 Sheet as Room-Temperature Magnetic Semiconductor, J. Nanopart. Res. 20, 129 (2018).
[3] X. Chen and Z.-Z. Lin*, Single-layer graphdiyne-covered Pt(111) surface: Improved catalysis confined under two-dimensional overlayer, J. Nanopart. Res. 20, 136 (2018).
2017年:
[1] Z.-Z. Lin*, Two-dimensional C12Mn2/C12Cr2 as room-temperature half metal/antiferromagnetic semiconductor: A systematical study, Phys. Chem. Chem. Phys. 19, 3394 (2017).
2016年:
[1] Z.-Z. Lin*, Graphdiyne-supported single-atom Sc and Ti catalysts for high-efficient CO oxidation, Carbon 108, 343 (2016).
[2] Z.-Z. Lin* and X. Chen, Transition-metal-decorated germanene as promising catalyst for removing CO contamination in H2, Materials & Design 107, 82 (2016).
[3] C. Yin, Z.-Z. Lin*, M. Li and H. Tang, Understanding the formation mechanism of two-dimensional atomic islands on crystal surfaces by the condensing potential model, Z. Naturforsch. A 71, 321 (2016).
[4] Q. Wei*, H. Yan, X. Zhu, Z. Lin and R. Yao, Theoretical Investigations on the Elastic and Thermodynamic Properties of Rhenium Phosphide, Z. Naturforsch. A 71, 1 (2016).
2015年:
[1] Z.-Z. Lin*, Graphdiyne as a promising substrate for stabilizing Pt nanoparticle catalyst, Carbon 86, 301 (2015).
[2] Z.-Z. Lin*, Theoretical investigation on isomer formation probability and free energy of small C clusters, Chin. Phys. B 24, 068201 (2015).
[3] Z.-Z. Lin*, Tunable laser and photocurrents from linear atomic C chains, Mod. Phys. Lett. B 29, 1550108 (2015).
[4] Q. Fan, Q. Wei*, C. Chai, H. Yan, M. Zhang, Z. Lin, Z. Zhang, J. Zhang, and D. Zhang, Structural, mechanical, and electronic properties of P3m1-BCN, J. Phys. Chem. Solids 79, 89 (2015).
[5] Q. Wei*, M. Zhang, H. Yan, R. Li, X. Zhu, Z. Lin and R. Yao, A New Superhard Phase of C3N2 Polymorphs, Z. Naturforsch. A 70, 1001 (2015).
2014年:
[1] Z.-Z. Lin*, Q. Wei and X. Zhu, Modulating the electronic properties of graphdyine nanoribbons, Carbon 66, 504 (2014).
[2] Z.-Z. Lin* and X. Chen, Spin-polarized current generated by magnetic Fe atomic chain, Nanotechnology 25, 235202 (2014).
[3] Z.-Z. Lin*, Theoretical investigation of thermodynamic balance between cluster isomers and statistical model for predicting isomerization rate, J. Nanopart. Res. 16, 2201 (2014).
[4] Z.-Z. Lin, W.-Y. Li, and X.-J. Ning*, A statistical model for predicting thermal chemical reaction rate, Chin. Phys. B 23, 050501 (2014).
[5] Y.-G. Xu, C. Ming, Z.-Z. Lin, F.-X. Meng, J. Zhuang, and X.-J. Ning*, Can graphynes turn into graphene at room temperature?, Carbon 73, 283 (2014).
[6] Q. Wei*, M. Zhang*, H. Yan, Z. Lin and X. Zhu, Structural, electronic and mechanical properties of Imma-carbon, EPL 107, 27007 (2014).
2013年:
[1] Z.-Z. Lin* and X. Chen, Predicting the chemical stability of monatomic chains, EPL 101, 48002 (2013).
[2] Z.-Z. Lin* and X. Chen, Single molecule capture by a doped monatomic carbon chain, J. Phys.: Codens Matter 25, 205302 (2013).
[3] Z.-Z. Lin* and X. Chen, Ultrafast dynamics and fragmentation of C60 in intense laser pulses, Phys. Lett. A 377, 797 (2013).
[4] W.-F. Yu, Z.-Z. Lin and X.-J. Ning*, Mass dependence of the Soret coefficient for atomic diffusion in condensed matter, Phys. Rev. E 87, 062311 (2013).
[5] W.-F. Yu, Z.-Z. Lin and X.-J. Ning*, Simple statistical model for predicting thermal atom diffusion on crystal surfaces, Chin. Phys. B 22, 116802 (2013).
[6] Q. Wei*, M. Zhang, L. Guo, H. Yan, X. Zhu, Z. Lin, P. Guo, Ab initio studies of novel carbon nitride phase C2N2(CH2), Chem. Phys. 415, 36 (2013).
2012年:
[1] Z.-Z. Lin, J. Zhuang, and X.-J. Ning*, High-efficient tunable infrared laser from monatomic carbon chains, EPL 97, 27006 (2012).
[2] W.-Y. Li, Z.-Z. Lin, J.-J. Xu, and X.-J. Ning*, A statistical model for predicting thermal chemical reaction rate:Application to bimolecule reactions, Chin. Phys. Lett. 29, 080504 (2012).
[3] 陈熙, 林正喆, 殷聪, 汤浩, 胡蕴成, 宁西京*, 铂纳米颗粒生长和结构的理论预测, 物理学报 61, 076801 (2012).
[4] C. Ming, Z.-Z. Lin, R.-G. Cao, W.-F. Yu, and X.-J. Ning*, A scheme for fabricating single wall carbon nanocones standing on me[ant]tal surfaces and an evaluation of their stability, Carbon 50, 2651 (2012).
[5] C. Ming, Z.-Z. Lin, J. Zhuang, and X.-J. Ning*, Electronic rectification devices from carbon nanocones, Appl. Phys. Lett. 100, 063119 (2012).
2011年:
[1] Z.-Z. Lin, W.-F. Yu, Y. Wang, and X.-J. Ning*, Predicting the stability of nanodevices, EPL 94, 40002 (2011).
[2] Z.-Z. Lin and X.-J. Ning*, Controlling the electronic properties of monatomic carbon chains, EPL 95, 47102 (2011).
[3] Z.-Z. Lin, X. Chen, C. Yin, H. Tang, Y.-C. Hu, and X.-J. Ning*, Theoretical prediction of the growth and surface structure of Pt and Ni nanoparticles, EPL 96, 66005 (2011).
2010年:
[1] Z.-Z. Lin, C. Ming, Y. Wang, W. Zhang, J. Zhuang, and X.-J. Ning*, Excitation of large-scale delocalized quantum state by local interactions, EPL 92, 17005 (2010).
[2] Z.-Z. Lin, J. Zhuang, and X.-J. Ning*, Multi-photon resonance enhanced super high-order harmonic generation, Chin. Phys. B 19, 113204 (2010).
[3] X.-J. Han, Y. Wang, Z.-Z. Lin, W. Zhang, J. Zhuang, and X.-J. Ning*, Statistical model for small clusters transforming from one isomer to another, J. Chem.Phys. 132, 064103 (2010).
[4] C. Ming, Z.-Z. Lin, Y. Wang, W. Zhang, J. Zhuang, and X.-J. Ning*, Ion Acceleration by the Coulomb Explosion of Graphene, Jpn. J. Appl. Phys. 49, 045103 (2010).
[5] 韩小静, 王音, 林正喆, 张文献, 庄军, 宁西京*, 团簇异构体生长几率的理论预测, 物理学报 59, 3345 (2010).
[6] 曹荣根, 王音, 林正喆, 明辰, 庄军, 宁西京*, 一种制备单原子碳链的方案, 物理学报 59, 6438 (2010).
2010年以前:
[1] Y. Wang, Z.-Z. Lin, W. Zhang, J. Zhuang, and X.-J. Ning*, Pulling long linear atomic chains from graphene:Molecular dynamics simulations, Phys. Rev. B 80, 233403 (2009).
[2] Y. Wang, X.-J. Ning*, Z.-Z. Lin, and P. Li, Preparation of long monatomic carbon chains:Molecular dynamics studies, Phys. Rev. B 76, 165423 (2007).
[3] J. Gao, Z.-Z. Lin, and X.-J. Ning*, Isomers of C36 and free energy criteria for cluster growth, J. Chem. Phys 126, 174309 (2007).