在国际知名杂志上发表了280多篇文章,其中包括《Nature》4篇,《Nature Physics》、《Nature Photonics》、《Nature Nanotechnology》及《Nature Communications》等子刊22篇,《Science Advances》7篇),总引用次数超过19000次,H-因子76。科睿唯安交叉领域全球高被引科学家(2019-2021)。主持或参与编撰图书及章节5部,国际及中国专利授权9项。
部分重要影响力的代表文章:
光-物质强耦合相互作用、激子极化激元玻色-爱因斯坦凝聚和激射:
1. J.G. Feng#,*, Jun Wang#, A. Fieramosca#, R.Q. Bao, J.X. Zhao, R. Su, Y.T. Peng, T.C.H. Liew, D. Sanvitto, and Qihua Xiong*, “All-optical switching based on interacting exciton polaritons in self-assembled perovskite microwires”, Science Advances 7, eabj6627 (2021)
2. Rui Su*,#, Eliezer Estrecho*,#, D. Biegańska, Y.Q. Huang, M. Wurdack, M. Pieczarka, A.G. Truscott, T.C.H. Liew, E.A. Ostrovskaya* and Qihua Xiong*, “Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system”, Science Advances 7, abj8905 (2021)
3. J.Q. Wu, R. Su*, A. Fieramosca, S. Ghosh, J.X. Zhao, T.C.H. Liew*, and Qihua Xiong*, “Perovskite polariton parametric oscillator”, Adv. Photon. 3, 055003 (2021)
4. R. Su#, A. Fieramosca#, Q. Zhang, H.S. Nguyen, E. Deleporte, Z.H. Chen, D. Sanvitto*, T.C.H. Liew and Qihua Xiong*, “Perovskite semiconductors for room-temperature exciton-polaritonics”, Nature Materials, DOI: 10.1038/s41563-021-01035-x (perspectives) (2021)
5. R. Su*,#, S. Ghosh#, T.C.H. Liew*, and Qihua Xiong*, “Optical switching of topological phase in a perovskite polariton lattice”, Science Advances 7, eabf8049. DOI: 10.1126/sciadv.abf8049 (2021)
6. J.X. Zhao#, R. Su#, A. Fieramosca#, W.J. Zhao, W. Du, X. Liu, C. Diederichs, D. Sanvitto, T.C.H. Liew, and Qihua Xiong*, “Ultralow threshold polariton condensate in a monolayer semiconductor microcavity at room temperature”, Nano Lett. 21, 3331–3339. DOI: 10.1021/acs.nanolett.1c01162 (2021)
7. J.Q. Wu#, S. Ghosh#, R. Su*, A. Fieramosca, T.C.H. Liew*, and Qihua Xiong*, “Nonlinear parametric scattering of exciton polaritons in perovskite microcavities”, Nano Lett. 21, 3120–3126. DOI:10.1021/acs.nanolett.1c00283 (2021)
8. J. Wang#, H.W. Xu#, R. Su*, Y.T. Peng, J.Q. Wu, T. C. H. Liew*, and Qihua Xiong*, “Spontaneously coherent orbital coupling of counterrotating exciton polaritons in annular perovskite microcavities”, Light: Science and Applications 10, 45. DOI: 10.1038/s41377-021-00478-w (2021)
9. R. Su, S. Ghosh, J. Wang, S. Liu, C. Diederichs, T.C.H. Liew*, and Qihua Xiong*, “Observation of exciton polariton condensation in a perovskite lattice at room temperature”, Nature Physics 16, 301-306 (2020)
10. R. Su, J. Wang, J.X. Zhao, J. Xing, W.J. Zhao, C. Diederichs, T.C.H. Liew* and Qihua Xiong*, “Room temperature long-range coherent exciton polariton condensate flow in lead halide perovskites”, Science Advances 4, eaau0244, DOI: 10.1126/sciadv.aau0244 (2018)
11. J. Wang, R. Su, J. Xing, D. Bao, C. Diederichs, S. Liu, T.C.H. Liew, Z.H. Chen*, Qihua Xiong*, “Room temperature coherently coupled exciton polaritons in two-dimensional organic-inorganic perovskite”, ACS Nano 12, 8382-8389 (2018)
12. R. Su, C. Diederichs, J. Wang, T.C.H. Liew, J.X. Zhao, S. Liu, W. Xu, Z.H. Chen, and Qihua Xiong*, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets”, Nano Lett. 17, 3982–3988 (2017)
低维半导体材料激子精细结构及其载流子动力学研究:
1. E. Marcellina, X. Liu, Z.H. Hu, A. Fieramosca, Y.Q. Huang, W. Du, S. Liu, J.X. Zhao, K.J. Watanabe, T. Taniguchi, and Qihua Xiong*, “Evidence for Moiré trions in twisted MoSe2 homobilayers”, Nano Lett. 21, 4461–4468. DOI: 10.1021/acs.nanolett.1c01207 (2021)
2. W.J. Zhao, R. Su, Y.Q. Huang, J.Q. Wu, C.F. Fong, J.G. Feng, and Qihua Xiong*, “Transient circular dichroism and exciton spin dynamics in all-inorganic halide perovskites”, Nature Communications 11, 5665, DOI: 10.1038/s41467-020-19471-9 (2020)
3. S. Liu, A. Granados del Águila*, X. Liu, Y.H. Zhu, Y. Han, A. Chaturvedi, P. Gong, H.Y. Yu, H. Zhang, W. Yao, and Qihua Xiong*, “Room-temperature valley polarization in atomically thin semiconductors via chalcogenide alloying”, ACS Nano 14, 9873–9883 (2020)
4. T. Thu Ha Do, A. Granados del Águila, D. Zhang, J. Xing, S. Liu, M.A. Prosnikov, W.B. Gao, K. Chang, P.C.M. Christianen, and Qihua Xiong*, “Bright exciton fine-structure in two-dimensional lead halide perovskites”, Nano Lett. 20, 5141–5148 (2020)
5. J.X. Zhao, W.J. Zhao, W. Du, R. Su, and Qihua Xiong*, “Dynamics of exciton energy renormalization in monolayer transition metal disulfides”, Nano Research 13, 1399–1405 (2020)
6. C.X. Huo, C.F. Fong, M.-R Amara, Y.Q. Huang, B. Chen, H. Zhang, L.J. Guo, H.J. Li, W. Huang, C. Diederichs, and Qihua Xiong*, “Optical spectroscopy of single colloidal CsPbBr3 perovskite nanoplatelets”, Nano Lett. 20, 3673–3680 (2020)
7. S. Liu, S.S. Sun*, C.K. Gan*, A. Granados del Aguila, Y.N. Fang, J. Xing, T. Thu Ha Do, T.J. White, H.G. Li, W. Huang and Qihua Xiong*, “Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation”, Science Advances 5, eaav9445 (2019) (Highlighted by Nature website and Nature Review Chemistry journal)
8. X.L. Wen, W.G. Xu, W.J. Zhao, J.B. Khurgin and Qihua Xiong*, “Plasmonic hot carriers controlled second harmonic generation in WSe2 bilayers”, Nano Lett. 18, 1686-1692 (2018)
9. C.Y. Jiang, W.G. Xu, A. Rasmita, Z.M. Huang, K. Li, Qihua Xiong* and W.B. Gao*, “Microsecond dark-exciton valley polarization memory in two-dimensional heterostructures”, Nature Communications 9, 753, Doi:10.1038/s41467-018-03174-3 (2018) (Editors’ Highlights)
10. G.K. Long, C.Y. Jiang, R. Sabatini, Z.Y. Yang, M.Y. Wei, L.N. Quan, Q.M. Liang, A. Rasmita, M. Askerka, G. Walters, X.W. Gong, J. Xing, X.L. Wen, R. Quintero-Bermudez, H.F. Yuan, G.C. Xing, X.R. Wang, D.T. Song, O. Voznyy, M.T. Zhang, S. Hoogland, W.B. Gao*, Qihua Xiong* and E.H. Sargent*, “Spin control in reduced-dimensional chiral perovskites”, Nature Photonics 12, 528-533 (2018)
11. T. Thu Ha Do, A. Granados del Aguila, C. Cui, J. Xing, Z.J. Ning* and Qihua Xiong*, “Optical study on intrinsic exciton states in a high-quality CH3NH3PbBr3 single crystal”, Phys. Rev. B 96, 075308 (2017)
二维半导体异质结超快电荷及能量传递效应:
1. H. Li, H.L. Li, X.Z. Wang, Y.F. Nie, C. Liu, Y. Dai, J.Y. Ling, M.N. Ding, X. Ling, D.Q. Xie, N. Lu, C.J. Wan, Qihua Xiong*, and W.G. Xu*, “Spontaneous Polarity Flipping in a 2D Heterobilayer Induced by Fluctuating Interfacial Carrier Flows”, Nano Lett. 21, 6773–6780 (2021)
2. Z.H. Hu, P.L. Hernández-Martínez, X. Liu, M.-R. Amara, W.J. Zhao, K. Watanabe, T. Taniguchi, H.V. Demir and Qihua Xiong*, “Trion-mediated Förster resonance energy transfer and optical gating effect in WS2/hBN/MoSe2 heterojunction”, ACS Nano 14, 13470–13477, DOI: 10.1021/acsnano.0c05447 (2020)
3. X. Liu, J.J. Pei, Z.H. Hu, W.J. Zhao, S. Liu, M.-R. Amara, K. Watanabe, T. Taniguchi, H. Zhang, and Qihua Xiong*, “Manipulating charge and energy transfer between 2D atomic layers via heterostructure engineering”, Nano Lett. 20, 5359–5366 (2020)
4. W. Du, J.X. Zhao, W.J. Zhao, S.P. Zhang, H.X. Xu and Qihua Xiong*, “Ultrafast modulation of exciton–plasmon coupling in a monolayer WS2–Ag nanodisk hybrid system”, ACS Photonics 6, 2832-2840 (2019)
5. C.Y. Jiang, A. Rasmita, W.G. Xu, A. Imamoglu, Qihua Xiong* and G.B. Gao*, “Optical spin pumping induced pseudomagnetic field in two-dimensional heterostructures”, Phys. Rev. B 98, 241410 (2018) (Rapid Communications)
6. W.J. Zhao and Qihua Xiong*, “Nanoscale interfaces made easily”, Nature 553, 32-34 (2018) (News and Views)
7. C.Y. Jiang, A. Rasmita, W.G. Xu, A. Imamoglu, Qihua Xiong* and G.B. Gao*, “Optical spin pumping induced pseudomagnetic field in two-dimensional heterostructures”, Phys. Rev. B 98, 241410 (2018) (Rapid Communications)
8. W.G. Xu, W.W. Liu, J. F. Schmidt, W.J. Zhao, X. Lu, T. Raab, C. Diederichs, W.B. Gao, D. V. Seletskiy, and Qihua Xiong*, “Correlated fluorescence blinking in two-dimensional semiconductor heterostructures”, Nature 541, 62-67 (2017)
9. H.K. Yu, D. Talukdar, W.G. Xu, J.B. Khurgin* and Qihua Xiong*, "Charge-Induced Second-Harmonic Generation in Bilayer WSe2", Nano Lett. 15, 5653-5657 (2015)
半导体光增益、光子学及光电子学器件:
1. Y. Chen, W. Du, Q. Zhang, O. Ávalos-Ovando, J. Wu, Q.-H. Xu, N. Liu, H. Okamoto, A.O. Govorov, Qihua Xiong*, and Cheng-Wei Qiu*, “Multidimensional nanoscopic chiroptics”, Nature Review Physics, DOI: 10.1038/s42254-021-00391-6 (2021) (Perspectives)
2. Q. Zhang*, Q.Y. Shang, R. Su, T. Thu Ha Do, and Qihua Xiong*, “Halide perovskite semiconductor lasers: materials, cavity design, and low threshold”, Nano Lett. 21 DOI: 10.1021/acs.nanolett.0c03593 (2021)
3. K.B. Lin, J. Xing, L.N. Quan, F. Pelayo García de Arquer, X.W. Gong, J.X. Lu, L.Q. Xie, W.J. Zhao, D. Zhang, C.Z. Yan, W.Q. Li, X.Y. Liu, Y. Lu, J. Kirman, E.H. Sargent*, Qihua Xiong*, and Z.H. Wei*, “Perovskite light-emitting diodes with external quantum efficiency exceeding 20 per cent”, Nature 562, 245-248 (2018)
4. J. Xing, Y.B. Zhao, M. Askerka, L.N. Quan, X.W. Gong, W.J. Zhao, J.X. Zhao, H.R. Tan, G.K. Long, L. Gao, Z.Y. Yang, O. Voznyy, J. Tang, Z.H. Lu*, Qihua Xiong* and E.H. Sargent*, “Color-stable highly luminescent sky-blue perovskite light-emitting diodes” Nature Communications, DOI: 10.1038/s41467-018-05909-8 (2018)
5. F. Yan, J. Xing, G.C. Xing, L. Quan, S.T. Tan, J.X. Zhao, R. Su, L.L. Zhang, S. Chen, Y.W. Zhao, A. Huan, E.H. Sargent*, Qihua Xiong* and H.V. Demir*, “Highly efficient visible colloidal lead-halide perovskite nanocrystal light-emitting diodes”, Nano Lett. 18, 3157-3164 (2018)
6. Q. Zhang, R. Su, X.F. Liu, T.Z. Sum* and Qihua Xiong*, “High quality whispering-gallery-mode lasing from cesium lead halide perovskite nanoplatelets”, Adv. Funct. Mater. 26, 6238-6245 (2016)
7. J. Xing, F. Yan, Y.W. Zhao, S. Chen, H.K. Yu, Q. Zhang, R.G. Zeng, H.V. Demir, X.W. Sun, A. Huan and Qihua Xiong*, “High-efficiency light-emitting diodes of organometal halide perovskite amorphous nanoparticles”, ACS Nano 10, 6623-6630 (2016)
8. J. Xing, F. Yan, Y.W. Zhao, S. Chen, H.K. Yu, Q. Zhang, R.G. Zeng, H.V. Demir, X.W. Sun, A. Huan and Qihua Xiong*, “High-efficiency light-emitting diodes of organometal halide perovskite amorphous nanoparticles”, ACS Nano 10, 6623-6630 (2016)
9. J. Xing, X.F. Liu, Q. Zhang, S.T. Ha, Y.W. Yuan, C. Shen, T.C. Sum and Qihua Xiong*, "Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers", Nano Lett. 15, 4571 - 4577 (2015)
10. Q. Zhang, S.T. Ha, X.F. Liu, T.C. Sum* and Qihua Xiong*, “Room-temperature near-infrared high-Q perovskite whispering-gallery planar nanolasers”, Nano Lett. 14, 5995-6001 (2014)
11. S.T. Ha, X.F. Liu, Q. Zhang, D. Giovanni, T.C. Sum and Qihua Xiong*, “Synthesis of organic-inorganic lead halide perovskite nanoplatelets: Towards high performance perovskite solar cells and opto-electronic devices”, Adv. Opt. Mater. 2, 838-844 (2014) (highlighted as Best of Advanced Optical Materials – 2014 edition)
12. Q. Zhang, G.Y. Li, X.F. Liu, F. Qian, Y. Li, T.C. Sum, C.M. Lieber* and Qihua Xiong*, “A room temperature low-threshold ultraviolet plasmonic nanolaser”, Nature Communications 5, 4953. DOI: 10.1038/ncomms5953 (2014)
拉曼光谱学、半导体光制冷及光学声子可分辨边带拉曼制冷效应:
1. J. Zhang*, Q. Zhang, X.Z. Wang, K. L. Kwek and Qihua Xiong*, “Resolved sideband Raman cooling of an optical phonon in semiconductor materials”, Nature Photonics 10, 600-605 (2016)
2. S.T. Ha, C. Shen, J. Zhang and Qihua Xiong*, “Laser cooling of organic-inorganic lead halide perovskites”, Nature Photonics 10, 115-121 (2016)
3. Q. Zhang, X.F. Liu, M.I.B. Utama, G.C. Xing, T.C. Sum* and Qihua Xiong*, “Phonon-assisted anti-Stokes lasing in ZnTe nanoribbons”, Adv. Mater. 28, 276-283 (2016)
4. X. Luo, X. Lu, G.K. Wai Koon, A.H.C. Neto, B. Özyilmaz*, Qihua Xiong*, and S.Y. Quek*, "Large frequency change with thickness in interlayer breathing mode — significant interlayer interactions in few layer black phosphorus", Nano Lett. 15, 3931-3938 (2015)
5. D.H. Li, J. Zhang, X.J. Wang, B.L. Huang and Qihua Xiong*, “Solid-state semiconductor optical cryocooler based on CdS nanobelts”, Nano Lett. 14, 4724–4728 (2014)
6. J. Zhang, D.H. Li, R.J. Chen, and Qihua Xiong*, “Laser cooling of a semiconductor by 40 Kelvin”, Nature 493, 504-508 (2013) (Nature Cover Highlight, highlighted by Nature Photonics in its April and May issues, news coverage by German Public Radio, German Science News, Physics world by IoP, Txchnologist, Arstechnia, The Statesman-The Oldest English Newspaper of India, Wiley Materials Views China, Phys Org, Channel Asia, The Strait Times, and so forth)
7. Y.Y. Zhao, X. Luo, H. Li, J. Zhang, P.T. Araujo, C.K. Gan, J. Wu, H. Zhang*, S.Y. Quek*, M.S. Dresselhaus, and Qihua Xiong*, “Interlayer breathing and shear modes in few-trilayer MoS2 and WSe2”, Nano Lett. 13, 1007-1015 (2013)
8. Q. Zhang, X.F. Liu, M.I.B. Utama, J. Zhang, M. de la Mata, J. Arbiol, Y.H. Lu, T.C. Sum, and Qihua Xiong*, “Highly enhanced exciton recombination rate by strong electron-phonon coupling in single ZnTe nanobelt”, Nano Lett. 12, 6420-6427 (2012)
9. Q. Zhang, J. Zhang, M.I.B. Utama, B. Peng, M. de la Mata, J. Arbiol, and Qihua Xiong*, “Exciton-phonon coupling in individual ZnTe nanorods studied by resonant Raman spectroscopy”, Phys. Rev. B 85, 085418 (2012)
10. J. Zhang, Z.P. Peng, A. Soni, Y.Y. Zhao, Y. Xiong, B. Peng, J.B. Wang, M.S. Dresselhaus, and Qihua Xiong*, “Raman spectroscopy of few-quintuple layer topological insulator Bi2Se3 nanoplatelets”, Nano Lett. 11, 2407-2414 (2011)
部分专利及授权:
1. Qihua Xiong, Bo Peng, “Monolayer of Nanorods on A Substrate and Method of Forming The Same”. US Patent Application No: 14/773, filing date: September 4th 2015. US Patent granted on August 7th, 2018 (Patent No. US 10,041,886 B2, pending); China Patent Application Number: 201480017158.8, patent granted on October 13th, 2017 (Patent No.: ZL 2014 8 0017158.8, pending).
2. Qihua Xiong, S.T. Ha, C. Shen and J. Zhang, “Laser Cooling of Organic-Inorganic Lead Halide Perovskites” US Provisional Patent (Application Number is TD/165/14), June 24th, 2014; granted on December 24th, 2019 (Patent No.: US 10,514,188 B2, pending).
3. Qihua Xiong, C. Cao and J. Zhang, “Alphabetical Metamaterial Gate/Sensor Device and Its Use to Measure Mercury”, US Provisional Patent (Application Number is 61/833,130), 10th June 2013; granted on November 5th, 2019 (Patent No.: US 10,466,180 B2, pending)
4. Qihua Xiong, C. Cao and J. Zhang, “Metamaterial Device and Uses Thereof”, Chinese patent Application Number: 201480033310.1, granted on August 7th, 2018. (Patent No.: ZL201480033310.1, pending)
5. Qihua Xiong and B. Peng, “Vertical-Aligned Monolayer of Au Nanorods On Arbitrary Substrates: Femtomolar Detection Of Phthalate Plasticizers”, PAT/046/13/13/US PRV, 5 April, 2013 (Application number 61/773,617).
6. Qihua Xiong, J. Zhang and D.H. Li, “Laser Cooling Of Solids Using II-VI Semiconductors”, Technology disclosure filed at Nanyang Technological University (Application number: 61/656,185) on 6 June 2012; US Patent Application No: 13/911,825, Filing Date: 06 June 2013; US patent granted on June 13th, 2017 (Patent No.: US 9,680,278 B2, pending).
7. Qihua Xiong, X.L. Xu and J. Zhang, “Flexible Vis-IR Metamaterials and Their Applications in Highly Sensitive Chemical and Biological Sensing”, Technology disclosure filed at Nanyang Technological University (Application number: 61/494,099), International filing date 6 June 2012; United States of America Application No.: 14/124,496, Filing Date: 6 December 2013. PAT/069/11/13/PCT-SG, pending. Chinese Patent granted on March 22nd, 2017 (Patent No.: ZL 2012 8 0028198.3). US Patent granted on June 20th 2017 (Patent No.: US 9,683, 991 B2, pending).
8. C.M. Lieber, Qihua Xiong, P. Xie and Y. Fang, “High-Resolution Molecular Sensor,” US Serial Number 12/677,573, granted on 15 April 2014 (Patent Number: US 8,698,481 B2) and European application Number 08830263.3 (Pending), licensed to Oxford Nanopore Technology, UK.
9. Chinese Patent: "A Piece of Equipment for DNA Chip Detecting", Chinese Patent Office, Qihua Xiong, Minqian Li, Bin Li, ZL 99 2 40088.0, application date: 10/29/99, issue date: 03/29/01.