Code Development:

1.       Nonlinear Optics and Plasmonics Simulation Software V1.0     Xiao Jiang, Bing Huang      No: 2020SR1729644

         See Method/Application of this code:
         SHG calculations [Phys. Rev. B 106, 195126 (2022); Cell Reports Physical Science 3, 101111 (2022); Phys. Rev. B 105, 045415 (2022)]
         shift/injection/spin current calculations [Phys. Rev. B 106, 195126 (2022); Adv. Funct. Mater. 4, 2208023 (2022)]
         plasmon calculations [PNAS 118, e2023029118 (2021)]

2.       Hk4magnetism Calculation Platform V1.0      Jiabin Chen, Bin Shao, Bing Huang      No: 2021SR0194492

         See Method/Application of this code:
         PNAS 119, e2122952119 (2022); Nature Comput. Sci. 3, 314 (2023)


Writings:

1.       司晨,黄兵,段文晖,第二章,《纳米材料热传导》(21世纪理论物理及其交叉学科前沿丛书),科学出版社   

2.       周刚,杨宇,黄兵,段文晖,第四章,《纳米结构与性能的理论计算与模拟》,科学出版社   

3.       Bing Huang and Suhuai Wei, Chapter 2, 《Handbook of Materials Modeling. Volume 2 Applications: Current and Emerging Materials》, Springer   

4.       Xiao Jiang, Jiafeng Xie, Zhou Li, Bing Huang, and Su-Huai Wei, Chapter 3, 《Emergent Micro- and Nanomaterials for Optical, Infrared, and Terahertz Applications》, CRC Press   

Publication (Citations > 7400, H-index = 45):

     2024:

1.       X. Sui, X. Han, H. Jin, X. Wu, L. Qiao, X. Shao, and B. Huang, “Electronic Properties of Hydrogen doped Square-Planar Nickelates”, Phys. Rev. B XXXX   (2024) .

2.       S. Han, L. Ye, Y. Li, and B. Huang, “Theoretical Understanding of Nonlinear Optical Properties in Solids: A Perspective”, J. Phys. Chem. Lett. 15, 3323   (2024) .

3.       Y. Cai, Y. Wang, Z. Hao, Y. Liu, X. Sui, Z. Liang, X. Ma, F. Zhang, Z. Shen, C. Zhang, Z. Jiang, Y. Yang, W. Liu, Q. Jiang, Z. Liu, M. Ye, D. Shen, H. Gao, H. Xiao, Z. Liu, Z. Sun, Y. Liu, S. Cui, J. Chen, L. Wang, C. Liu, J. Lin, B. Huang, Z. Wang, X. Chen, J. Mei, J. Wang, C. Chen, “Emergence of quantum confinement in topological kagome superconductor CsV3Sb5”, Commun. Mater. 5, 31   (2024) .

4.       J. Chen, L. Hong, B. Huang, and H. J. Xiang, “Ferroelectric switching assisted by laser illumination”, Phys. Rev. B 109, 094102   (2024) .

5.       H. Qi, X. Han, X. Sui, B. Huang, H. Xiao, and L. Qiao, “Impact of Polarity Mismatch in Infinite-Layer Nickelates”, ACS Appl. Mater. Interfaces 16, 10924   (2024) .

6.       Z. Liu, H. Jin, Y. Zhang, K. Fan, L. Zhu, W. Zhang, B. Huang, and Y. Fu, “Charge-density Wave Mediated Quasi-one-dimensional Kondo Lattice in Stripe-phase Monolayer 1T-NbSe2”, Nature Commun. 15, 1039   (2024) .

7.       M. Xu, Y. Zhao, X. Ding, H. Leng, S. Zhang, J. Gong, H. Xiao, X. Zu, H. Luo, K. Zhou, B. Huang, and L. Qiao, “Optimization for epitaxial fabrication of infinite-layer nickelate superconductors”, Frontiers of Physics 19, 33209   (2024) .

8.       C. Chen, Z. Fan, R. Ma, Y. Pan, Y. Liang, B. Huang, and T. Ma, “Stripe order manipulated dominant pairing symmetry in the Hubbard model”, Phys. Rev. B 109, 045101   (2024) .


     2023:

1.       Y. Cai, J. Wang, Y. Wang, Z. Hao, Y. Liu, L. Zhou, X. Sui, Z. Jiang, S. Xu, H. Ge, X. Ma, C. Zhang, Z. Shen, Y. Yang, Q. Jiang, Z. Liu, M. Ye, D. Shen, Y. Liu, S. Cui, L. Wang, C. Liu, J. Lin, B. Huang, L. Wu, J. Zhuang, H. He, W. Zhang, J. Mei, and C. Chen, “Type-II Dirac Nodal Lines in a Double-Kagome-LayeredSemimetal”, Adv. Elec. Mater. 9, 2300212   (2023) .

2.       X. Zuo, Y. Feng, N. Liu, B. Huang, M. Liu, D. Liu, and B. Cui, “Layer number dependent spin Hall effects in transition metal monocarbides M2C (M =V, Nb, Ta)”, Phys. Rev. B 108, 195129   (2023) .

3.       X. Han, P. Li, X. Sui, H. Jin, F. Luo, L. Qiao, and B. Huang, “Intermediate ground states of hydrogen in LaNiO2: A first-principles study”, Phys. Rev. B 108, 165145   (2023) .

4.       L. Ye, W. Zhou, D. Huang, X. Jiang, X. Cao, S. Yan, X. Wang, D. Jia, Q. Guo, D. Jiang, Y. Wang, X. Wu, X. Zhang, Y. Li, H. Lei, H. Gou, and B. Huang, “Manipulation of Nonlinear Optical Responses in Layered Ferroelectric Niobium Oxide Dihalides”, Nature Commun. 14, 5911   (2023) .

5.       H. Jin, X. Chen, L. Qiao, and B. Huang, “Electronic correlation-driven exotic quantum phase transitions in infinite-layer manganese oxide”, Phys. Rev. B 108, 054106   (2023) .

6.       P. Li, P. Udvarhelyi, S. Li, B. Huang, and A. Gali, “Carbon cluster emitters in silicon carbide”, Phys. Rev. B 108, 085201   (2023) .

7.       B. Shao, X. Jiang, J. Berges, S. Meng, and B. Huang, “Engineering Interlayer Hybridization in Energy Space via Dipolar Overlayers”, Chin. Phys. Lett. (Express Letter) 40, 087303   (2023) .

8.       X. Jiang, L. Kang, J. Wang, and B. Huang, “Giant Bulk Electrophotovoltaic Effect in Heteronodal-line Systems”, Phys. Rev. Lett. 130, 256902   (2023) .

9.       Y. Liu, Y. Wang, Y. Cai, Z. Hao, X. Ma, L. Wang, C. Liu, J. Chen, L. Zhou, J. Wang, S. Wang, H. He, Y. Liu, S. Cui, B. Huang, J. Wang, C. Chen, and J. -W. Mei, “Doping Evolution of Superconductivity, Charge Order, and Band Topology in Hole-doped Topological Kagome Superconductors Cs(V1−xTix)3Sb5”, Phys. Rev. Mater. 7, 064801   (2023) .

10.       B. Huang, “What are the Roles of Hydrogen in Infinite-layer Nickelates?”, Chin. Phys. Lett. 40, 057403   (2023) .

11.       B. Yang, Y. Li, H. Xiang, H. Lin, and B. Huang, “Moiré Magnetic Exchange Interactions in Twisted Magnets”, Nature Comput. Sci. 3, 314   (2023) .

12.       J. Chen, Y. Li, H. Yu, Y. Yang, H. Jin, B. Huang, H. J. Xiang,“Light-induced Magnetic Phase Transition in van der Waals Antiferromagnets”, Sci. Chin. Phys. 66, 277511   (2023) .

13.       X. Huang, X. Jiang, B. Huang, and S. Zhou, “Nonlocal Optical Conductivity of Fermi Surface Nesting Materials”, Sci. Chin. Phys. 66, 247011   (2023) .

14.       X. Sui, J. Wang, C. Chen, X. Ding, K. -J. Zhou, C. Cao, L. Qiao, H. Lin, and B. Huang, “Unusual hole-doping-dependent electronic instability and electron-phonon coupling in infinite-layer nickelates”, Phys. Rev. B 107, 075159   (2023) .

15.       X. Ding, C. C. Tam, X. Sui, Y. Zhao, M. Xu, J. Choi, H. Leng, J. Zhang, M. Wu, H. Xiao, X. Zu, M. Garcia-Fernandez, S. Agrestini, X. Wu, Q. Wang, P. Gao, S. Li, B. Huang, K. J. Zhou, and L. Qiao, “Critical Role of Hydrogen for Superconductivity in Nickelates”, Nature 50, 615   (2023) .

16.       J. Liu, P. Li, Q. Zheng, C. Zhang, Y. Li, Y. Zhang, G. Zhao, X. Yan, B. Huang, and Zhi Zeng, “Carrier capture dynamics of deep-level defects in neutron-irradiated Si with improved intra-cascade potential”, IEEE TNS 70, 113   (2023) .


     2022:

1.       H. Huang, X. Yan, X. Yang, W. Yan, Z. Qi, S. Wu, Z. Shen, N. Tang, F. Xu, X. Wang, W. Ge, B. Huang, and B. Shen, “Identification of Carbon Location in p-type GaN: Synchrotron x-ray Absorption Spectroscopy and Theory”, Appl. Phys. Lett. 121, 252101   (2022) .

2.       S. Zhang, B. Yang, Z. Liu, X. Zu, D. O. Scanlon, B. Huang, L. Qiao, and H. Xiao, “Tunable interface states driven by ferroelectric polarization discontinuity in BiFeO3-based superlattice”, Appl. Phys. Lett. 121, 221601   (2022) .

3.       X. Jiang, L. Ye, X. Wu, L. Kang, and B. Huang, “Role of large Rashba spin-orbit coupling in second-order nonlinear optical effects of polar BiB3O6”, Phys. Rev. B 106, 195126   (2022) .

4.       C. Chen, R. Ma, X. Sui, Y. Liang, B. Huang, and T. X. Ma, “Antiferromagnetic fluctuations and dominant dxy-wave pairing symmetry in nickelate-based superconductors”, Phys. Rev. B 106, 195112   (2022) .

5.       P. Li, X. Jiang, M. Huang, L. Kang, S. Chen, A. Gali, and B. Huang, “Defect Engineering of Second-harmonic Generation in Nonlinear Optical Semiconductors”, Cell Reports Physical Science 3, 101111   (2022) .

6.       H. Jin, Y. Li, J. Chen, B. Shao, and B. Huang, “Generating Two-dimensional Ferromagnetic Charge Density Wave via External Field”, Phys. Rev. B 106, 165112   (2022) .

7.       W. Tan, X. Jiang, Y. Li, X. Wu, J. Wang, and B. Huang, “A Unified Understanding of Diverse Spin Textures of Kramers–Weyl Fermions in Nonmagnetic Chiral Crystals”, Adv. Funct. Mater. 4, 2208023   (2022) .

8.       Y. Li, B. S. Yang, S. Xu, B. Huang, and W. H. Duan, “Emergent Phenomena in Magnetic Two-Dimensional Materials and van der Waals Heterostructures”, ACS Appl. Electron. Mater. 4, 3278   (2022) .

9.       C. C. Tam, J. Choi, X. Ding, S. Agrestini, A. Nag, M. Wu, B. Huang, H. Luo, P. Gao, M. Carcia-Fernandez, L. Qiao, and K. Zhou, “Charge density waves in infinite-layer NdNiO2 nickelates”, Nat. Mater. 106, L081101   (2022) .

10.       Z. Hao, Y. Cai, Y. Liu, Y. Wang, X. Sui, X. Ma, Z. Shen, Z. Jiang, Y. Yang, W. Liu, Q. Jiang, Z. Liu, M. Ye, D. Shen, Y. Liu, S. Cui, J. Chen, L. Wang, C. Liu, J. Lin, J. F. Wang, B. Huang, J. Mei, and C. Chen, “Dirac nodal lines and nodal loops in topological Kagome superconductor CsV3Sb5”, Phys. Rev. B 106, L081101   (2022) .

11.       X. R. Han, Y. Li, P. Li, X. L. Yan, X. -Q. Wu, and B. Huang, “A comparable study of defect diffusion and recombination in Si and GaN”, J. Appl. Phys. 132, 045701   (2022) .

12.       Y. Li, S. Xu, J. Wang, C. Wang, B. Yang, H. Lin, W. H. Duan, and B. Huang, “Interplay between quantum anomalous Hall effect and magnetic skyrmions”, PNAS 119, e2122952119   (2022) .

13.       S. Qiao, Y. Wu, X. Yan, B. Monserrat, S. -H. Wei, and B. Huang, “Temperature effect on charge-state transition levels of defects in semiconductors”, Phys. Rev. B 105, 115201   (2022) .

14.       D. Liu, L. Hu, X. Yang, Z. Zhang, H. Yu, F. Zheng, Y. Feng, J. Wei, Z. Cai, Z. Chen, C. Ma, F. Xu, X. Wang, W. Ge, K. Liu, B. Huang, and B. Shen, “Polarization-driven-orientation selective growth of single-crystalline III-nitride semiconductors on arbitrary substrates”, Adv. Funct. Mater. 41, 2113211   (2022) .

15.       X. Ding, S. Shen, H. Leng, M. Xu, Y. Zhao, J. Zhao, X. Sui, X. Wu, H. Xiao, X. Zu, B. Huang, H. Luo, P. Yu, and L. Qiao, “Stability of Superconducting Nd0.8Sr0.2NiO2 Thin Films”, Sci. Chin. Phys. 65, 267411   (2022) .

16.       X. Jiang, L. Kang, and B. Huang, “Role of interlayer coupling in the second harmonic generation of bilayer transition-metal dichalcogenides”, Phys. Rev. B 105, 045415   (2022) .


     2021:

1.       X. Ding, B. Yang, H. Leng, J. H. Jang, J. Zhao, C. Zhang, Y. He, S. Zhang, G. Cao, J. Zhang, R. Mishra, P. Yang, J. Yi, D. Qi, Z. Gai, X. Zu, S. Li, B. Huang, A. Borisevich, and L. Qiao “Crystal Symmetry Engineering in Epitaxial Perovskite Superlattices”, Adv. Funct. Mater. 38, 6466   (2021) .

2.       Z. Liu, S. Qiao, B. Huang, Q. Tang, Z. Ling, W. Zhang, H. Xia, X. Liao, H. Shi, W. Mao, G. Zhu, J. Lu, Y. Fu, “Charge transfer gap tuning via structural distortion in monolayer 1T-NbSe2”, Nano Lett. 21, 7005  (2021) .

3.       X. L. Yan, P. Li, S. -H. Wei, and B. Huang, “Universal Theory and Basic Rules of Strain-Dependent Doping Behaviors in Semiconductors”, Chin. Phys. Lett. (Express Letter) 38, 087103  (2021) .

4.       L. Kang, P. Gong, Z. S. Lin, and B. Huang, “Deep-Ultraviolet Nonlinear Optical van der Waals Beryllium Borates”, Angew. Chem. Int. Ed. 133, 16816   (2021) .

5.       P. Li, X. L. Yan, P. Dong, and B. Huang, “Electronic and Doping Properties of Hexagonal Silicon Carbide with Stacking Faults Induced Cubic Inclusions”, J. Appl. Phys. 129, 235703   (2021) .

6.       B. Yang, B. Shao, J. F. Wang, Y. Li, C. Y. Yam, S. B. Zhang, and B. Huang, “Realization of semiconducting layered multiferroic heterojunctions via asymmetrical magnetoelectric coupling”, Phys. Rev. B (Letter) 103, L201405   (2021) .

7.       X. Sui, J. F. Wang, C. Yam, and B. Huang, “Two-Dimensional Magnetic Anionic Electrons in Electrides: Generation and Manipulation”, Nano Lett. 21, 3813   (2021) .

8.       L. Kang, G. He, X. Zhang, J. Li, Z. S. Lin, and B. Huang, “Alloy Engineering of Polar (Si,Ge)2N2O System for Controllable Second Harmonic Performance”, Inorganic Chemistry 60, 7381   (2021) .

9.       J. F. Wang, X. Sui, W. H. Duan, F. Liu, and B. Huang, “Density-independent plasmons for terahertz-stable topological metamaterials”, PNAS 118, e2023029118   (2021) .

10.       X. Zuo, Q. Gao, X. Sui, X. Xu, X. Jiang, L. Han, H. Li, D. Li, D. Liu, B. Huang and B. Cui, “Giant and robust intrinsic spin Hall effects in metal dihydrides: A first-principles prediction”, Phys. Rev. B 103, 125159  (2021) .

11.       S. Zhang, J. Wang, S. Wen, M. Jiang, H. Xiao, X. Ding, N. Wang, M. Li, X. Zu, S. Li, C. Yam, B. Huang and L. Qiao, “Approaching Charge Separation Efficiency to Unity without Charge Recombination”, Phys. Rev. Lett. 126, 176401   (2021) .

12.       L. Hu, B. Huang and F. Liu, “Atomistic mechanism underlying the Si(111)-(7x7) surface reconstruction revealed by artificial neural-network potential”, Phys. Rev. Lett. 126, 176101  (2021) .

13.       P. Dong, X. L. Yan, L. Zhang, S. Jin, F. Dai, Y. Zhang, Y. Cui, X. Yu, and B. Huang,“Relating gain degradation to defects production in neutron irradiated 4H-SiC transistors”, IEEE Trans. Nucl. Sci. 68, 312   (2021) .

14.       P. Dong, P. Li, L. Zhang, Y. Cui, and B. Huang, “Atomistic mechanism of interface carrier trapping effects on breakdown voltage degradation in 4H-SiC/SiO2 interfaces”, Phys. Rev. Appl. 15, 034007  (2021) .

15.       J. Wang, J. Niu, B. Shao, G. Yang, C. Lu, M. Li, Z. Zhou, X. Chuai, J. Chen, N. Lu, B. Huang, Y. Wang, L. Li, and M. Liu, “A tied Fermi liquid to Luttinger liquid model for the explanation of nonlinear transport in conducting polymers”, Nature Commun. 12, 58   (2021) .


     2020:

1.       S.Q.Du, J. F. Wang, L. Kang, B. Huang and W. H. Duan, “Giant Enhancement of Solid Solubility in Monolayer Alloys by Selective Orbital Coupling”, Phys. Rev. B 101, 054201   (2020) .

2.       J. Xu, J. -B. Liu, B. -X. Liu, and B. Huang, “Exotic Structural and Optoelectronic Properties of Layered Halide Double Perovskite Polymorphs”, Adv. Funct. Mater. 32, 2008620   (2020) .

3.       S. Shen, B. Shao, C. Wen, X. Yuan, J. Gao, Z. Nie, X. Luo, B. Huang, Y. Sun, S. Meng, and S. Yan, “Single-water-dipole-layer-driven reversible charge order transition in TaS2” , Nano Lett. 20, 8854   (2020) .

4.       L. Kang, X. Liu, Z. Lin, B. Huang, “Deep-ultraviolet layered oxide B2S2O9 with strong and robust second-harmonic generation”, Phys. Rev. B 102, 205424  (2020) .

5.       J. Xu, J. -B. Liu, J. F. Wang, B. -X. Liu, and B. Huang, “Response to Comment on Prediction of Novel p-type Transparent Conductors in Layered Double Perovskites: A First-Principles Study”, Adv. Funct. Mater. 30, 2003149   (2020) .

6.       L. Kang, F. Liang, Z. S. Lin, and B. Huang,“Deep-Ultraviolet Nonlinear Optical Crystals by Design: A Computer-Aided Modeling Blueprint from First Principles”, Science China Materials 63, 1597   (2020) .

7.       X. L. Yan, P. Li, L. Kang, S. -H. Wei, and B. Huang,“First-principles Study of Electronic and Diffusion Properties of Intrinsic Defects in 4H-SiC”, J. Appl. Phys. 101, 054201   (2020) .

8.       B. Cui, X. Zheng, J. Wang, D. Liu, S. Xie, and B. Huang, “Realization of Lieb lattice in Covalent-organic Frameworks with Tunable Topology and Magnetism” Nature Commun. 11, 66  (2020) .


     2019:

1.       L. Kang, F. Liang, Z. Lin, and B. Huang, “Prediction of MCO Systems with Giant Optical Birefringence and Nonlinearity in the Deep-Ultraviolet Region” Inorganic Chemistry   58, 77 (2018) .

2.       J. Xu, C. Xu, J. -B. Liu, L. Bellaiche, H. J. Xiang, B. X. Liu, and B. Huang, “Room-Temperature Half-Metallicity in Layered Halide Double Perovskites” NPJ Comput. Mater.   5.114 (2019) .

3.       J. Wang, X. Sui, S. Gao, W. H. Duan, F. Liu, and B. Huang, “Anomalous Dirac Plasmons in 1D Topological Electrides” Phys. Rev. Lett.  123, 206402 (2019) .

4.       L. Kang, X. Zhang, F. Liang, Z. Lin, andB. Huang, “Poly(difluorophosphazene) as the First Deep-Ultraviolet Nonlinear Optical Polymer Material: A First-principles Prediction”, Angew. Chem. Int. Ed.   58, 10250 (2019) .

5.       J. Xu, J. Liu, B. –X. Liu, J. F. Wang, and B. Huang, “Defect Engineering of Grain Boundaries in Lead-Free Halide Double Perovskites for Better Optoelectronic Performance” Adv. Funct. Mater  58, 10250 (2019) .

6.       J. Xu, J. Liu, B. –X. Liu, and B. Huang, “Unique Ion Diffusion Properties in Lead-free Halide Double Perovskites: A First-principles Study” J. Power Sources   412, 689 (2019) .


     2018:

1.       J. Wang, Y. Liu, K. –H. Jin, X. Sui, W. H. Duan, F. Liu, and B. Huang, “Topological Dirac-Nodal-Sphere Semimetal” Phys. Rev. B (RC)   98, 201112(R) (2018) .

2.       L. Kang, F. Liang, Z. Lin, F. Liu, and B. Huang, “Cyano-Based Materials with Giant Optical Anisotropy and Second Harmonic Generation Effect” Inorganic Chemistry  57, 15001 (2018) .

3.       L. Hu, L. Kang, J. L. Yang, B. Huang, and F. Liu, “Significantly Enhanced Magnetoresistance in Monolayer WTe2 via Heterojunction Engineering: A First-principles Study” Nanoscale  10, 22231 (2018).  

4.       C. Huang, J. Feng, F. Wu, D. Ahmed, B. Huang, H. –J. Xiang, K. Deng, and E. Kan, “Towards Intrinsic Room-temperature Ferromagnetism in Two-dimensional Semiconductors” J. Am. Chem. Soc.   140, 11519 (2018) .

5.       L. Kang, F. Liang, P. Gong, Z. Lin, F. Liu, and B. Huang, “Removal of A-Site Alkali and Alkaline Earth Metal Cations in KBe2BO3F2-Type Layered Structures to Enhance the Deep-Ultraviolet Nonlinear Optical Capability” Inorganic Chemistry   57, 11146 (2018) .

6.       L. Hu, H. Huang, Z. Wang, W. Jiang, X. Ni, Y. Zhou, V. Zielasek, M. G. Lagally,B. Huang, and F. Liu, “Ubiquitous Ideal Spin-Orbit Coupling in a Screw Dislocation in Semiconductors” Phys. Rev. Lett.   121, 066401 (2018).  

7.       L. Kang, F. Liang, P. Gong, Z. Lin, F. Liu, and B. Huang, “Two Novel Deep-Ultraviolet Nonlinear Optical Crystals with Short Phase-Matching Second Harmonic Generation than KBBF: A First-Principles Predictions” Phys. Status Solidi RRL DOI: 10.1002/pssr.201800276 (2018) .

8.       J. Xu, J. -B. Liu, B. -X. Liu, S. -N. Li, S. -H. Wei, and B. Huang, “Design of n-type Transparent Conducting Oxides: The Case of Transition Metal Doping in In2O3” Adv. Elec. Mater. 10.1002/aelm.201700553 (2018) .

9.       J. Xu, J. -B. Liu, J. F. Wang, B. -X. Liu, and B. Huang, “Prediction of Novel p-type Transparent Conductors in Layered Double Perovskites: a First-principles Study” Adv. Funct. Mater adfm.201800332 (2018) .


     2017:

1.       J. Wang, X. Sui, W. Shi, J. Pan, S. Zhang, F. Liu, S.-H. Wei, Q. Yan, and B. Huang,“Prediction of Ideal Topological Semimetals with Triply Degenerate Points in the NaCu3Te2 Family” Phys. Rev. Lett.   119, 256402 (2017) .

2.       B. Huang;K. Jin, B. Cui, F. Zhai, J. W. Mei, and F. Liu, "Bending Strain Engineering of Spin Transport in Quantum Spin Hall Systems.", Nature Communications.  8, 15850 (2017) .

3.       Xu, Jian; Liu, Jian-Bo; Liu, Bai-Xin;B. Huang, "Intrinsic Defect Physics in Indium-based Lead-free Halide Double Perovskites.", Journal of Physical Chemistry Letters.  8, 4391−4396 (2017) .

4.       Cui, Bin;B. Huang;Li, Chong; Zhang, Xiaoming; Jin, Kyung-Hwan; Zhang, Lizhi; Jiang, Wei; Liu, Desheng; Liu, Feng,"Creation of half-metallic f-orbital Dirac fermion with superlight elements in orbital-designed molecular lattice.", Phys. Rev. B   96, 085134 (2017) .

5.       T. Zhang, Y. Wang, K. Appusamy, B. Huang;J. Wang, F. Liu, S. Blair, S. Guruswamy, and A. Nahata, “Gallium platinum alloys – a new material system for UV plasmonics” ” Opt. Mater. Exp.   7, 2880 (2017) .

6.       L. Zhang, F. Zhai, K. Jin, B. Cui, B. Huang;Z. Wang, J. Q. Lu, and F. Liu, “Quantum Spin Hall Effect and Tunable Spin Transport in As-Graphene”, Nano Lett.   7, 4359 (2017) .

7.       J. Xu, J. Liu, B. Huang;S. Li, B. X. Liu, “The role of negatively charged oxygen vacancies upon β-MnO2 conductivity”, Acta Mater.   131, 88 (2017) .


     2016:

1.       Li, Xiao-Feng; Hu, Zi-Yu; B. Huang,"Phase diagram and superconductivity of compressed zirconium hydrides.", Physical Chemistry Chemical Physics .  19(5):3538-3543 (2016) .

2.       K. Wang, B. Huang, M. Tian, F. Ceballos, M. –W. Lin, M. Mahjouri-Samani, A. Boulesbaa, A. A. Puretzky, C. M. Rouleau, M. Yoon, H. Zhao, K. Xiao, G. Duscher, and D. B. Geohegan, “Interlayer Coupling in Twisted WSe2/WS2 Bilayer Heterostructures Revealed by Optical Spectroscopy”, ACS Nano   10, 6612 (2016) .

3.       L. Zhang, Z. F. Wang, B. Huang, B. Cui, Z. M. Wang, S. Du, H. J. Gao, and F. Liu, “Intrinsic Two-Dimensional Organic Topological Insulators in Metal-DCA lattices”, Nano Lett.   16, 2072 (2016) .

4.       X. Li, M. –W. Lin, J. Lin, B. Huang, A. A. Puretzky, K. Wang, C. Rouleau, D. B. Geohegan, and K. Xiao, “Two-dimensional GaSe/MoSe2 misfit bilayer heterojunctions by van der Waals epitaxy”, Science Advances   2, e1501882 (2016)   .

5.       J. Koo, H. Bae, L. Kang, B. Huang, and H. Lee, “Calcium-decorated carbon nanostructures for the selective capture of carbon dioxide”, PCCP   18, 29086 (2016).

6.       B. Huang, K. Jin, H. L. Zhuang, L. Zhang, and F. Liu, “Interface Orbital Engineering of Large-gap Topological States: Decorating Gold in Si(111) Surface”, Phys. Rev. B   93, 115117 (2016).

     Before 2016:

1.       J. -S. Park, B. Huang, S. –H. Wei, J. Kang, and W. E. McMahon, “Period-doubling reconstructions of semiconductor partial dislocations”, NPG Asia Materials   7, e216 (2015).

2.       A. Boulesba, B. Huang, K. Wang, M. W. Lin, M. Mahjouri-Samani, C. Rouleau, M. Yoon, B. G. Sumpter, A. Puretzky and D. Geohegan, “Observation of two distinct negative trions in tungsten disulfide monolayers”, Phys. Rev. B   92, 115443 (2015).  

3.       B. Huang, M. Yoon, B. G. Sumpter, S. –H. Wei, and F. Liu, “Alloy Engineering of Defect Properties in Semiconductors: Suppression of Deep Levels in Transition-Metal Dichalcogenides”, Phys. Rev. Lett.   115, 126806 (2015).  

4.       X. Li, L. Basile, B. Huang, C. Ma, J. Lee, I. Vlassiouk, A. A. Puretzky, M. –W. Lin, M. Yoon, M. Chi, J. C. Idrobo, C. Rouleau, Bobby G Sumpter, D. B. Geohegan, and K. Xiao, “Van der Waals Epitaxial Growth of Two-Dimensional Single-Crystalline GaSe Domains on Graphene”, ACS Nano   9, 8078 (2015).

5.       11. S. R. Wagner+, B. Huang+, C. Park+, J. Feng, M. Yoon, and P. Zhang, “Growth of Metal Phthalocyanine on Deactivated Semiconducting Surfaces Steered by Selective Orbital Coupling”, Phys. Rev. Lett.   115, 096101 (2015).

6.       B. Huang, H. L. Zhuang, M. Yoon, S. –H. Wei, and B. G. Sumpter, “Highly Stable Two-dimensional Silicon Phosphides: Different Stoichiometries and Exotic Electronic Properties”, Phys. Rev. B (RC)   91, 121401R (2015).

7.       H. X. Deng, B. Huang, and S. –H. Wei, “Stable Interface Structure of Heterovalent Semiconductor Superlattices: The Case of (GaSb)n(ZnTe)n”, Comput. Mater. Sci.   98, 340 (2014).

8.       H. J. Xiang, B. Huang, E. Kan, S. –H. Wei, and X. G. Gong, “Reply to Comment on Towards Direct-gap Silicon Phases by Inverse Band Structure Design Approach”, Phys. Rev. Lett.   112, 199802 (2014).

9.       B. Huang, H. Deng, H. Lee, M. Yoon, B. G. Sumpter, S. C. Sean, and S. –H. Wei, “Exceptional Optoelectronic Properties of Hydrogenated Bilayer Silicene”, Phys. Rev. X   4, 021029 (2014).  

10.       J. Koo, M. Park, S. Hwang, B. Huang, H. Lee, G. Kim, J. Nam, Y. Kwon, and H. Lee, “Tailoring the Electronic Band Gap of Graphyne”, JPCC   118, 2463 (2014).

11.       J. Koo, B. Huang, H. Lee, G. Kim, J. Nam, Y. Kwon, and H. Lee, “Tailoring the Electronic Band Gap of Graphyne”, JPCC   118, 2463 (2014).

12.       B. Huang, S. Chen, H. Deng, L. –W. Wang, M. A. Contreras, R. Noufi, and S. –H. Wei, “Origin of reduced efficiency in Cu(In,Ga)Se2 solar cells with high Ga concentration: Alloy solubility versus Intrinsic Defects”, IEEE Journal of Photovoltaics   4, 477 (2014).

13.       B. Huang, H. J. Xiang, and S. –H. Wei, “Chemical Functionalization of Silicene: Spontaneous Structural Transition and Exotic Electronic Properties”, Phys. Rev. Lett.   111, 145502 (2013).

14.       I. L. Repins, H. Moutinho, S. G. Choi, A. Kanevce, D. Kuciauskas, P. Dippo, C. Beall, J. Carapella, C. DeHart, B. Huang, and S. -H. Wei, “Indications of Short Minority Carrier Lifetime in Kesterite Solar Cells”, J. Appl. Phys.   114, 084507 (2013).

15.       P. Xu, S. Y. Chen, B. Huang, H. J. Xiang, X. –G. Gong, and S. –H. Wei, “Stability and electronic structure of Cu2ZnSnS4 surfaces: First-principles study”, Phys. Rev. B   88, 045427 (2013).

16.       J. Koo, H. J. Hwang, B. Huang, H. Lee, H. Lee, M. Park, Y. Kwon, S. -H. Wei, and H. Lee, “Exotic Geometrical and Electronic Properties in Hydrogenated Graphyne”, JPCC   117, 11960 (2013).

17.       S. Majety, J. Li, W. P. Zhao, B. Huang, S. –H. Wei, J. Y. Lin, and H. X. Jiang, “Hexagonal boron nitride and 6H-SiC heterostructure”, Appl. Phys. Lett.   102, 213505 (2013).

18.       Q. Shu, J. Yang, S. Chen, B. Huang, H. J. Xiang, X. –G. Gong, and S. –H. Wei, “Cu2Zn(Sn,Ge)Se4 and Cu2Zn(Sn,Si)Se4 Alloys as Photovoltaic Materials: Structural and Electronic Properties”, Phys. Rev. B   85, 115208 (2013).

19.       H. J. Xiang, B. Huang, E. Kan, S. –H. Wei, and X. G. Gong, “Towards direct-gap silicon phases by the inverse band structure design approach”, Phys. Rev. Lett.   110, 118702 (2013).

20.       B. Huang, H. J. Xiang, Q. Xu, and S. –H. Wei, “Overcoming the Phase Inhomogeneity in Chemically Functionalized Graphene: The Case of Graphene Oxides”, Phys. Rev. Lett.   110, 085501 (2013).

21.       Q. Xu, B. Huang, Y. Zhao, Y. Yan, R. Noufi, and S. –H. Wei, “Crystal and electronic structures of CuxS solar cell absorbers”, Appl. Phys. Lett.   100, 061906 (2012).

22.       B. Huang and H. Lee, “Defect and impurity properties of hexagonal boron nitride: A first-principles calculations”, Phys. Rev. B   86, 245406 (2012).

23.       B. Huang, X. K. Cao, H. X. Jiang, J. Y. Lin, and S. –H. Wei, “Origin of the significantly enhanced optical transistors in layered boron nitride”, Phys. Rev. B   86, 155202 (2012).

24.       B. Huang, H. J. Xiang, J. Yu, and S. –H. Wei, “Effective Control of the Charge and Magnetic States of Transition-Metal Atoms on Single-layer Boron Nitride”, Phys. Rev. Lett.   108, 206802 (2012).

25.       H. J. Xiang, B. Huang, Z. Y. Li, S –H. Wei, J. L. Yang, X. G. Gong, “Ordered Semiconducting Nitrogen-Graphene Alloys”, Phys. Rev. X   2, 011003 (2012).

26.       B. Huang, H. Lee, B. –L. Gu, F. Liu, and W. H. Duan, “Edge stability of boron nitride nanoribbons and its application in designing hybrid BNC structures”, Nano Res.   5, 62 (2012).

27.       B. Huang and S. –H. Wei, “Comment on Mechanisms of Postsynthesis Doping of Boron Nitride Nanostructures with Carbon from Frist-principles Simulations”, Phys. Rev. Lett.   107, 239601 (2011).

28.       B. Huang, Q. Xu, and S. –H. Wei, “Theoretical study of corundum as an ideal gate dielectric material for graphene transistors”, Phys. Rev. B   84, 155406 (2011).

29.       B. Huang, J. Yu, and S. –H. Wei, “Strain control of magnetism in graphene decorated by transition-metal atoms”, Phys. Rev. B   84, 075415 (2011).

30.       B. Huang, H. J. Xiang, and S. –H. Wei, “Controlling doping in graphene through a SiC substrate: a first-principles study”, Phys. Rev. B (RC)   83, 161405R (2011).

31.       B. Huang, “Electronic properties of boron and nitrogen doped graphene nanoribbons and its application for graphene electronics”, Phys. Lett. A   375, 845 (2011).

32.       B. Huang, Z. Li, Y. –W. Son, G. Kim, W. H. Duan, and J. Ihm, “Multiple localized states and magnetic ordering in partially open zigzag carbon nanotube superlattices”, J. Chem. Phys.   133, 084702 (2010).

33.       Z. Li, B. Huang, and W. H. Duan, “The half-metallicity of zigzag graphene nanoribbons with asymmetric edge terminations”, J. Nanosci. Nanotech.   10, 5374 (2010).

34.       H. Lee, B. Huang, W. H. Duan, and J. Ihm, “Releasing H2 molecules with a partial pressure bifference without the use of temperature”, Phys. Rev. B   82, 085439 (2010).

35.       H. Lee, B. Huang, W. H. Duan, and J. Ihm, “Beryllium-dihydrogen complexes on nanostructures”, Appl. Phys. Lett.   96, 143120 (2010).

36.       H. Lee, B. Huang, W. H. Duan, and J. Ihm, “Ab initio study of beryllium-decorated fullerenes for hydrogen storage”, J. Appl. Phys.   107, 084304 (2010).

37.       B. Huang, C. Si, H. Lee, J. Wu, B. –L. Gu, and W. H. Duan, “Intrinsic half-metallic of BN-C nanotubes”, Appl. Phys. Lett.   97, 043115 (2010).

38.       B. Huang, M. Liu, N. Su, J. Wu, W. H. Duan, B. –L. Gu, and F. Liu, “Quantum manifestations of graphene edge stress and edge instability: a first-principle study”, Phys. Rev. Lett.   102, 166404 (2009).  

39.       B. Huang, Y. –W. Son, G. Kim, W. H. Duan, and J. Ihm, “Electronic and magnetic properties of partially open carbon nanotubes”, J. Am. Chem. Soc.   131, 17919 (2009).

40.       B. Yan, K. Tomatsu, B. Huang, A. L. da Rosa, G. Zhou, B. –L. Gu, W. H. Duan, F. Komori, and T. Frauenheim, “Structural and electronic properties of Ge-Si, Sn-Si, and Pb-Si dimers on Si (001) from density-functional calculations”, Phys. Rev. B   79, 235437 (2009).

41.       B. Huang, Q. Yan, Z. Li, and W. H. Duan, “Towards graphene nanoribbon-based electronics”, Front. Phys.   (Invited Review) 4, 269 (2009).

42.       F. Ouyang, B. Huang, Z. Li, J. Xiao, H. Wang, and H. Xu, “Chemical functionalization of graphene nanoribbons by carboxyl groups on stone-wales defects”, JPCC   112, 12003 (2008).

43.       B. Huang, F. Liu, J. Wu, B. –L. Gu, and W. H. Duan, “Suppression of spin polarization in graphene nanoribbons by edge defects and impurities”, Phys. Rev. B   77, 153411 (2008).

44.       B. Huang, H. Lee, W. H. Duan, and J. Ihm, “Hydrogen storage in alkali-metal-decorated organic molecules”, Appl. Phys. Lett.   93, 063107 (2008).

45.       B. Huang, Z. Li, Z. Liu, G. Zhou, S. Hao, J. Wu, B. –L. Gu, and W. H. Duan, “Adsorption of gas molecules on graphene nanoribbons and its implication for nanoscale molecule sensor”, JPCC   112, 13442 (2008).  

46.       B. Huang, Q. Yan, G. Zhou, J. Wu, B. –L. Gu, W. H. Duan, and F. Liu, “Making a field effect transistor on a single graphene nanoribbon by selective doping”, Appl. Phys. Lett.   91, 253122 (2007).

47.       Q. Yan, B. Huang, J. Yu, F. Zheng, J. Zang, J. Wu, B. –L. Gu, F. Liu, and W. H. Duan, “Intrinsic current-voltage characteristics of graphene nanoribbon transistors and effect of edge doping”, Nano Lett.   7, 1469 (2007).