研究成果
- 2024Shuang Tian, Tingting Wang, Hao Chen, Dengke Ma, and Lifa Zhang. Phonon coherent transport leads to an anomalous boundary effect on the thermal conductivity of a rough graphene nanoribbon. Phys. Rev. Applied 21, 064005 (2024)
- 2024Xiaozhe Li, Yang Long, Tingting Wang, Yan Zhou, and Lifa Zhang.Utilizing topological invariants for encoding and manipulating chiral phonon devices.Appl. Phys. Lett. 124, 252201 (2024)
- 2024Hao Chen, Weikang Wu, Kangtai Sun, Shengyuan A. Yang, and Lifa Zhang;Electrically controllable chiral phonons in ferroelectric materials. Appl. Phys. Lett. 124, 092201 (2024)
- 2024Shuang Tian, Tianheng Wu, Shiqian Hu, Dengke Ma, and Lifa Zhang;Boosting phonon transport across AlN/SiC interface by fast annealing amorphous layers. Appl. Phys. Lett. 124, 042202 (2024)
- 2024Tingting Wang, Hong Sun, Xiaozhe Li, and Lifa Zhang; Chiral Phonons: Prediction, Verification, and Application. Nano Lett. 24, 15, 4311–4318 (2024)
- 2024Chenhan Liu, Chao Wu, Yunshan Zhao, Zuhuang Chen, Tian-Ling Ren, Yunfei Chen, and Gang Zhang;Actively and reversibly controlling thermal conductivity in solid materials. Phys. Rep. 1058, 1-32 (2024)
- 2024Xiaoyu Fan, Ying Sun, Leyi Huang, Jiaqiu Xie, Xiaoliang Zeng, Chenhan Liu, Lifa Zhang, and Yunshan Zhao;Improvement of interfacial thermal resistance between TIMs and copper for better thermal management. Surf. Interfaces. 46, 103905 (2024)
- 2024Meilin Li, Huanhuan Sun, Chenhan Liu, Jun Zhou, Gang Zhang, Lifa Zhang, and Yunshan Zhao;Abnormal Thickness-Dependent Thermal Transport in Suspended 2D PdSe2. Small. 2311125 (2024)
- 2024Tianheng Wu, Yu Yang, Tingting Wang, Xiaozhe Li, and Lifa Zhang;Optimizing the performance of the thermal transistor based on negative differential thermal resistance. Appl. Phys. Lett. 124, 112201 (2024)
- 2024Xiao Li, Jinxin Zhong, Jinluo Cheng, Hao Chen, Huiqian Wang, Jun Liu, DaLi Sun, Lifa Zhang, and Jun Zhou;Chiral Phonon Activated Spin Seebeck Effect in Chiral Materials. SCIENCE CHINA Physics, Mechanics & Astronomy, Vol. 67 No. 3: 237511 (2024)
- 2023Kyunghoon Kim, Eric Vetter, Liang Yan, Cong Yang, Ziqi Wang, Rui Sun, Yu Yang, Andrew H. Comstock, Xiao Li, Jun Zhou, Lifa Zhang, Wei You, Dali Sun and Jun Liu. Chiral-phonon-activated spin Seebeck effect. Nat. Mater. 22, 322 (2023).
- 2023Yu Yang, Yunshan Zhao, Lifa Zhang; Machine learning boosting the discovery of porous metamaterials with an abnormal thermal transport property. Appl. Phys. Lett. 122, 144102 (2023)
- 2023Tingting Wang, Shuang Tian, Dengke Ma, and Lifa Zhang; Nonmonotonic dependence of thermal conductivity on surface roughness: A multiparticle Lorentz gas model. Phys. Rev. E 108, 014125 (2023)
- 2023Wei Luo, Junyi Ji, Peng Chen, Yang Xu, Lifa Zhang, Hongjun Xiang, and Laurent Bellaiche; Nonlinear phonon Hall effects in ferroelectrics: Existence and nonvolatile electrical control. Phys. Rev. B 107, L241107 (2023)
- 2023Jinxin Zhong, Hong Sun, Yang Pan, Zhiguo Wang, Xiangfan Xu, Lifa Zhang, and Jun Zhou; Abnormal phonon angular momentum due to off-diagonal elements in the density matrix induced by a temperature gradient. Phys. Rev. B 107, 125147 (2023)
- 2023Yu Yang, Yunshan Zhao, Lifa Zhang; A high-performance thermal transistor based on interfacial negative differential thermal resistance. Appl. Phys. Lett. 122, 232201 (2023)
- 2023Yi Gao, Yang Pan, Jun Zhou, and Lifa Zhang; Chiral phonon mediated high-temperature superconductivity. Phys. Rev. B 108. 064510 (2023)
- 2023Hao Chen, Qianqian Wang, Xukun Feng, Weikang Wu, and Lifa Zhang. Phonon chirality manipulation mechanism in transition-metal dichalcogenide interlayer-sliding ferroelectrics. Nano Lett. 23, 11266 (2023).
- 2023C. Liu, Y. Si, H. Zhang, W. Chao, S. Deng, Y. Dong, Y. Li, M. Zhuo, N. Fan, B. Xu, P. Lu, L. Zhang, X. Lin, X. Liu, J. Yang, Z. Luo, S. Das, L. Bellaiche, Y. Chen, and Z. Chen. Science 382, 1265 (2023).
- 2022Yuheng Xing, Hao Chen, Ning Xu, Xiao Li, and Lifa Zhang. Valley modulation and single-edge transport of magnons in breathing kagome ferromagnets. Phys. Rev. B 105, 104409 (2022).
- 2022Lei Xu, Tingting Wang, Kaiyang Zhang, Dengke Ma, and Lifa Zhang, Ultimate optimization of interface thermal resistance by utilizing interfacial nonlinear interaction, EPL, 139(2022) 26003.
- 2022Longkai Lu, Dengke Ma, Ming Zhong, and Lifa Zhang. Temperature oscillation in one-dimensional superlattice induced by phonon localization. New J. Phys. 24, 013007 (2022)
- 2022Guohuan Xiong, Zhizhou Yu, and Lifa Zhang. Interband chiral phonon transfer in a magnetic field. Phys. Rev. B 105, 024312 (2022)
- 2022Hao Chen, Weikang Wu, Jiaojiao Zhu, Zhengning Yang, Weikang Gong, Weibo Gao, Shengyuan A. Yang, and Lifa Zhang. Chiral Phonon Diode Effect in Chiral Crystals. Nano Lett. 22, 1688 (2022).
- 2022Jie Chen, Xiangfan Xu, Jun Zhou, and Baowen Li. Interfacial thermal resistance: Past, present, and future. Rev. Mod. Phys. 94, 025002 (2022).
- 2022Guohuan Xiong, Hao Chen, Dengke Ma, and Lifa Zhang, Effective magnetic fields induced by chiral phonons, Phys. Rev. B 106, 144302(2022).
- 2022Ma, Dengke, Yuheng Xing, and Lifa Zhang. Reducing interfacial thermal resistance by interlayer. Journal of Physics: Condensed Matter (2022).
- 2022Jinxin Zhong, Qing Xi, Hongjie Jin, Ziqi Wang, Dengke Ma, Jun Liu, and Jun Zhou. Enhancement of thermal percolation in composites: A two-dimensional case study. Applied Physics Letters 121.16 (2022): 162201.
- 2021D. Ma, Y. Zhao, L. Zhang; Anomalous hybridization complementation effect on phonon transport in heterogeneous nanowire cross junction; Journal of Physics: Condensed Matter; 33(28) (2021) 285701.
- 2021Y. Wu, Y. Yang, L. Lu, T. Wang, L. Xu, Z. Yu, L. Zhang; Ballistic thermal rectification in asymmetric homojunctions; Physical Review E; 103(5) (2021) 052135.
- 2021张力发,马登科,杨宇;具有铜镀层的电热管;ZL 2019 1 1419631.6
- 2021H. Chen, W. Wu, J. Zhu, S. A. Yang, L. Zhang; Propagating Chiral Phonons in Three-Dimensional Materials; Nano Letters; 21(7) (2021) 3060-3065.
- 2021Y. Yang, X. Li, L. Zhang; Bidirectional and Unidirectional Negative Differential Thermal Resistance Effect in a Modified Lorentz Gas Model; Chinese Physics Letters; 38(1) (2021) 016601.
- 2021D. Ma, Y. Zhao, L. Zhang; Facilitating thermal transport across Si/Ge interface via mass-graded interlayer: The role of elastic and inelastic phonon processes; Journal of Applied Physics; 129(17) (2021) 175302.
- 2021T. Wang, Y. Yang, Y. Wu, L. Xu, D. Ma, L. Zhang; Interface thermal resistance induced by geometric shape mismatch: A multiparticle Lorentz gas model; Physical Review E; 104(2) (2021) 024801
- 2021X. Li, C. Xia, Y. Pan, M. Gao, H. Chen, L. Zhang; Topological chiral phonons along the line defect of intralayer heterojunctions; Physical Review B; 104(5) (2021) 054103.
- 2020W. Zhang, A. Srivastava, X. Li, L. Zhang, Chiral phonons in the indirect optical transition of a MoS2/WS2 heterostructure, Phys. Rev. B, 102(17) (2020) 174301.
- 2020L. Lu, G. Xiong, Y. Huang, D. Ma, M. Zhong, and L. Zhang, "Optimized interfacial thermal coupling between two nonlinear systems", J. Phys.: Cond. Matt. 32, 19LT02 (2020)
- 2020Y. Yang, D. Ma, Y. Zhao, L. Zhang, Negative differential thermal resistance effect in a macroscopic homojunction, J. Appl. Phys., 127(19) (2020) 195301
- 2020H. Chen, Y. Yang, Z. Yu, M. Zhong, L. Zhang, Thermal Hall effect from a modified Lorentz gas model, Phys. Rev. E, 101(4) (2020) 042129.
- 2020D. Ma, G. Zhang, L. Zhang, Interface thermal conductance between β-Ga2O3 and different substrates, J. Phys. D: Appl. Phys., 53(43) (2020) 434001.
- 2020D. Ma, L. Zhang, Enhancement of interface thermal conductance between Cr–Ni alloy and dielectric via Cu nano-interlayer, J. Phys. Condens. Mat., 32(42) (2020) 425001
- 2020C. Xia, W. Li, D. Ma, L. Zhang, Electronic and thermal properties of monolayer beryllium oxide from first principles, Nanotechnology, 31(37) (2020) 375705.
- 2020Y. Xing, F. Ma, L. Zhang, Z. Zhang, Selective flattening of magnon bands in kagome-lattice ferromagnets with Dzyaloshinskii-Moriya interaction, Sci. China-Phys. Mech. Astron., 63(10) (2020) 107511
- 2020G. Xiong, J.-S. Wang, D. Ma, L. Zhang, Dramatic enhancement of interfacial thermal transport by mass-graded and coupling-graded materials, Europhys. Lett., 128(5) (2020) 54007
- 2020X.L. Dengke Ma, L. Zhang, Tuning thermal transport via phonon localization in nanostructures, Chin. Phys. B, 29(12) (2020) 126502-.
- 2020X. Li, H. Chen, Q. Niu, Out-of-plane carrier spin in transition-metal dichalcogenides under electric current, Proc. Natl. Acad. Sci. U.S.A., 117(29) (2020) 16749-16755.
- 2020C. Xia, Y. Zhao, D. Ma, X. Li, L. Zhang, Strain-driven dynamic stability and anomalous enhancement of thermal conductivity in graphene-like IIA–VI monolayer monoxides, J. Phys. Condens. Mat., 33(6) (2020) 065701.
- 2020Y. Zhao, P. Yu, G. Zhang, M. Sun, D. Chi, K. Hippalgaonkar, J.T.L. Thong, J. Wu, Low-Symmetry PdSe2 for High Performance Thermoelectric Applications, Adv. Funct. Mater., 30(52) (2020) 2004896.
- 2019X. Chen, X. Lu, S. Dubey, Q. Yao, S. liu, X. Wang, Q. Xiong, L. Zhang, A. Srivastava,"Entanglement of single-photons and chiral phonons in atomically thin WSe2",Nat.phys, s41567-018-0366-7 (2019)
- 2019H. Chen, W. Zhang, Q. Niu, L. Zhang,"Chiral phonons in two-dimensional materials",2D Mater. 6, 012002 (2019)
- 2019 H. Chen, W. Wu, S. Yang, X. Li, L. Zhang. "Chiral phonons in kagome lattices", Phys Rev B. 100. 094303 (2019)
- 2019G. Xiong, Z. Yu, J. Wang, L Zhang."Phonon quarters-wave loss,New J. Phys. 21 , 093046 (2019) "
- 2019H. Wang, Y. Yang, H. Chen, N. Li, L. Zhang, Thermal rectification induced by geometrical asymmetry: A two-dimensional multiparticle Lorentz gas model, Phys. Rev. E 99, 062111 (2019).
- 2019Z. Li, T. Wang, C. Jin, Z. Lu .et. al., Momentum-Dark Intervalley Exciton in Monolayer Tungsten Diselenide Brightened via Chiral Phonon, ACS Nano 13, 14107 (2019)
- 2019Y. Zhao, Y. Cai, L. Zhang, B. Li, G. Zhang, J.T.L. Thong, Thermal Transport in 2D Semiconductors—Considerations for Device Applications, Adv. Funct. Mater. n/a, 1903929
- 2018 H. Zhu, J. Yi, M. Li, J. Xiao, L. Zhang, C. Yang, R. Kaindl, L. Li, Y. Wang and X. Zhang, "Observation of chiral phonons." Science 359. 579-582 (2018)
- 2018G. Xiong,Y. Xing and L. Zhang*."Interfacial Thermal Transport via One-Dimensional Atomic Junction Model", Fron. Energ. 06,00006 (2018)
- 2018X. Xu, W. Zhang, J. Wang and L. Zhang*,"Topological chiral phonons in centerstacked bilayer triangle lattices", Journal of Physics Condensed Matter 30. 22 (2018)
- 2018Y. Hang, X. Xu, Q. Niu and L. Zhang*, "Phonon angular momentum and chiral phonons", Acta Physica Sinica, 67, 076302 (2018)
- 2018M. Gao,W. Zhang and L. Zhang*,"Nondegenerate Chiral Phonons in Graphene/Hexagonal Boron Nitride Heterostructure from First-Principles Calculations",Nano letters 18. 4424−4430 (2018)
- 2018J. Wang, H. Chen, G. Xiong,X. Xu and L. Zhang*,"Phonon chirality tuned through interface transmission in a atomic junction model",New J. Phys. 20. 073006 (2018)
- 2018H. Chen, H. Wang, Y. Yu, N. Li, L. Zhang*. "Rough boundary effect in thermal transport: A Lorentz gas model", Phys Rev E. 98. 032131 (2018)
- 2018Y. Yu, H. Chen, H. Wang, N. Li, L. Zhang*. "Optimal thermal rectification of heterojunctions under Fourier law",Phys Rev E. 98. 042131 (2018)
- 2018X. Xu, H. Chen, L. Zhang*. "Nondegenerate chiral phonons in the Brillouin-zone center of√3 ×√3 honeycomb superlattices", Phys Rev B. 98. 134304 (2018)
- 2018J. Cao, F. Qi, S. Yan, L. Zhang*. "Highly-efficient three-dimensional waveguide couplers using impedance-tunable transformation optics" Scientific reports, 8(1): 9091 (2018)
- 2017 Gan, Z. Chen, L. Liu, L. Zhang,* W. Tu and Y. Liu*, "Highly Efficient Solar-Driven Photothermal Performance in Au-Carbon Core-Shell Nanospheres ", Solar RRL 1, 1600032(2017)
- 2017W. Zhang and L. Zhang*, " Electric field tunable band-gap crossover in black(blue) phosphorus/g-ZnO van der Waals heterostructures ", RSC Advances 7, 34584 (2017)
- 2017Y. Xing, X. Xu and L. Zhang*, "Topological Phonons and Phonon Hall effects", Acta Physica Sinica, 66, 226601 (2017)
- 2017W. Zhang, Q. Du and L. Zhang*,"Tunable electronic and optical properties of gas molecules adsorbed monolayer graphitic ZnO: Implications for gas sensor and environment monitoring", Journal of Applied Physics, 122(24): 244304 (2017)
- 2016Z. Gan, Q. Gui, Y. Shan, P. Pan, N. Zhang and L. Zhang, "Photoluminescence of MoS2 quantum dots quenched by hydrogen peroxide: A fluorescent sensor for hydrogen peroxide", J Appl. Phys. 120, 104503(2016)
- 2016L. Zhang, " Berry curvature and various thermal Hall effects", New J. Phys. 18, 103039 (2016)
- 2016T.Tsatsoulis, C.Illg, M. Haag, B. Y. Mueller, L. Zhang, and M. Fahnle,"Ultrafast demagnetization after femtosecond laser pulses: Transfer of angular momentum from the electronic system to magnetoelastic spin-phonon modes", Phys. Rev. B 93,134411 (2016)
- 2015 L. Zhang and Q. Niu, "Chiral Phonons at High-Symmetry Points in Monolayer Hexagonal Lattices", Phys. Rev. Lett. 115,115502 (2015)
- 2015B. Chen and L. Zhang, "Optimized couplers for interfacial thermal transport", J. Phys.: Condens. Matter 27, 125401 (2015)
- 2014X. Lu, L. Zhang, W.G. Morrel, C.-Q Wu, B. Li, "Thermospin diode effect based on a quantum dot system", Physics Letters A 378, 3638(2014)
- 2014J. Cao, L. Zhang, S. Yan, X. Sun, ``Reflectionless design of optical elements using impedance- tunable coordinate transformation’’, Appl. Phys. Lett. 104, 191102
- 2014L. Zhang and Q. Niu, ``Angular Momentum of Phonons and Einstein-de Haas Effect’’, Phys. Rev. Lett. 112, 085503 (2014)
- 2013L. Zhang, J. Ren, J.-S. Wang, and. B. Li, `` Topological Magnon Insulator in Insulating Ferromagnet,’’ Phys. Rev. B 87,144101 (2013)
- 2013L. Zhang, J.-T. Lu, J.-S. Wang, and B. Li, `` Thermal transport across metal-insulator interface via electron-phonon interaction’’, J. Phys.: Condens. Matter 25, 445801 (2013)
- 2013L. Zhang, J. Thingna, D. He, J.-S. Wang and B. Li, ``Nonlinearity enhanced interfacial thermal conductance and rectification’’, Europhysics. Lett. 103, 64002 (2013)
- 2011L. Zhang, Ph.D thesis, ``Phonon Hall effect in two dimensional lattices'', 2011
- 2011L. Zhang, J. Ren, J.-S. Wang, and. B. Li, ``The phonon Hall effect: theory and application,'' J. Phys.: Cond. Matt. 23, 305402 (2011)
- 2011B. K. Agarwalla, L. Zhang, J.-S. Wang, and B. Li, ``Phonon Hall effect in ionic crystals in the presence of static magnetic field,'' Eur. Phys. J. B 81, 197 (2011)
- 2011L. Zhang, P. Keblinski, J.-S. Wang, and B. Li, ``Interfacial thermal transport in atomic junctions,'' Phys. Rev. B 83, 064303 (2011)
- 2010L. Zhang, J. Ren, J.-S. Wang, and B. Li, ``Topological nature of phonon Hall effect,'', Phys. Rev.
- 2010L. Hu, L. Zhang, M. Hu, J.-S. Wang, B. Li, and P. Keblinski, ``Phonon interference at self-assembled
- 2010L. Zhang, J.-S. Wang, and B. Li, ``Ballistic thermal rectification in nanoscale three-terminal junct
- 2009L. Zhang, J.-S. Wang, and B. Li, ``Phonon Hall effect in four-terminal junctions,'' New J. Phys. 1
- 2009L. Zhang, Y. Yan, C.-Q. Wu, J.-S. Wang, B. Li, ``Reversal of thermal rectification in quantum system
- 2009J.-S. Wang and L. Zhang, ``Phonon Hall thermal conductivity from Green-Kubo formula,'' Phys. Rev.
- Before 2009L. Zhang, J.-S. Wang, and B. Li, ``Ballistic magneto-thermal transport in a Heisenberg spin chain at low temperatures,’’ Phys. Rev. B 78, 144416 (2008)
- Before 2009L. Zhang and P. Tong, ``Entanglement of periodic anisotropic XY chains,’’ J. Phys. A: Math. Gen. 38, 7377–7388 (2005)
- Before 2009L. Zhang and P. Tong, ``The finite-size effect on the entanglement of the quantum Ising Chain,’’ Int. J. Mod. Phys. B, Vol. 18, 2564 (2004)
- Before 2009L. Zhang, Master Thesis, ``The Entanglement Of Some 1D Spin Systems'', 2004