刘波 教授博导

邮箱:lbo@tongji.edu.cn

联系方式:物理馆713室;021-65989875

个人简历
教育经历:

2004-2006 中国科学技术大学 博士后

2003-2004 美国犹他大学 访问学者

1998-2003 中国科学技术大学 博士

1994-1998 安徽大学 本科


工作经历:

2011至今   同济大学 教授 博士生导师

2006-2011 同济大学 副教授 博士生导师


教学情况
承担本科生《大学物理》、《发光材料》的课堂教学。
研究方向

光子人工微结构,新型闪烁发光材料,新型半导体辐射探测材料与器件。开展微纳光子学与核辐射探测的交叉研究,致力于解决探测器中闪烁体光输出效率低、发光方向性差、时间弥散严重等制约系统性能提升的瓶颈问题,利用光子人工微结构对闪烁发光的调控实现探测系统性能的突破。在Physical Review B、Applied Physics Letters, ACS Applied Materials & Interfaces等期刊发表SCI论文100多篇,总他引超过500次。获得授权国家发明专利20项,国际发明专利2项。承担重点基础加强课题1项,国家自然科学基金6项。研究成果在国家重大科学试验中取得成功应用。


欢迎全国各地对材料、物理、光学感兴趣的本科生报考本组研究生,联系方式lbo@tongji.edu.cn。

奖励荣誉
获奖:2021年度中国辐射防护学会科技进步一等奖(排名第一)
荣誉:
学术兼职
中国核学会辐射物理分会理事
中国材料与试验团体标准委员会 光学晶体标准化技术委员会委员

《人工晶体学报》 编委会青年编委

现代应用物理编委会青年编委

主要论著

[1] 唐慧丽, 刘波*, 徐军, 欧阳晓平, 超宽禁带半导体闪烁晶体氧化镓的研究进展, 现代应用物理, 12 (2021) 020101.

[2] Z. Zhu, B. Liu*, F. Zhang, H. Tang, J. Xu, M. Gu, C. Zhang*, L. Chen, J. Liu, X. Ouyang, Improved light output from thick β-Ga2O3 scintillation crystals via graded-refractive-index photonic crystals, Optics Express, 29 (2021) 18663-18670.

[3] Z. Zhu, B. Liu*, H. Tang, C. Cheng, M. Gu, J. Xu, C. Zhang*, X. Ouyang, Hollow nanosphere arrays with a high-index contrast for enhanced scintillating light output from β-Ga2O3 crystals, Optics Express, 29 (2021) 6169-6178.

[4] D. Yuan, B. Liu*, Y. Guo, Z. Zhu, M. Liu, C. Cheng, M. Gu, S. Zhou, Q. Xu, L. Chen, Light output enhancement of scintillators by using mixed-scale microstructures, Optics Express, 29 (2021) 24792-24803.

[5] D. Yuan, Y. Guo, B. Liu*, J. Zhao, Z. Zhu, C. Cheng, H. Chen, M. Gu, L. Chen, J. Liu, Directional light outcoupling enhancement of scintillators via hollow microlens arrays, Journal of Luminescence, 232 (2021) 117862.

[6] B. Liu*, X. Ouyang*, Book: Plastic Scintillators: Chemistry and Applications, Chapter 9: Optical Improvements of Plastic Scintillators by Nanophotonics, Springer Nature, 2021.

[7] Z. Li, J. Chen, H. Tang, Z. Zhu, M. Gu, J. Xu, L. Chen, X. Ouyang, B. Liu*, Band Gap Engineering in β-Ga2O3 for a High-Performance X-ray Detector, ACS Applied Electronic Materials, 3 (2021) 4630-4639.

[8] J. Chen, H. Tang*, Z. Li, Z. Zhu, M. Gu, J. Xu, X. Ouyang, B. Liu*, Highly sensitive X-ray detector based on a β-Ga2O3: Fe single crystal, Optics Express, 29 (2021) 23292-23299.

[9] J. Chen, H. Tang, B. Liu*, Z. Zhu, M. Gu, Z. Zhang*, Q. Xu, J. Xu, L. Zhou, L. Chen, X. Ouyang, High-Performance X-ray Detector Based on Single-Crystal β-Ga2O3:Mg, ACS Applied Materials & Interfaces, 13 (2021) 2879-2886.

[10] Z. Zhu, B. Liu, C. Cheng, H. Chen, M. Gu, L. Chen, J. Liu, X. Ouyang, J. Xu, C. Zhang, Convenient method for improving the light output of scintillators by using buffer layers coated with photonic crystals, Optics Express, 28 (2020) 11301-11308.

[11] D. Yuan, B. Liu*, Z. Zhu, Y. Guo, C. Cheng, H. Chen, M. Gu, M. Xu, L. Chen, J. Liu, Directional control and enhancement of light output of scintillators by using microlens arrays, ACS Applied Materials & Interfaces, 12 (2020) 29473-29480.

[12] D. Yuan, Y. Guo, B. Liu*, J. Zhao, Z. Zhu, C. Cheng, H. Chen, M. Gu, L. Chen, J. Liu, Directional light outcoupling enhancement of scintillators via hollow microlens arrays, Journal of Luminescence, 232 (2020) 117862.

[13] H. Tang, N. He, H. Zhang, B. Liu, Z. Zhu, M. Xu, L. Chen, J. Liu, X. Ouyang, J. Xu, Inhibition of volatilization and polycrystalline cracking, and the optical properties of β-Ga2O3 grown by the EFG method, CrystEngComm, 22 (2020) 924-931.

[14] N. He, M. Xu, H. Tang, B. Liu*, Z. Zhu, M. Gu, J. Xu, J. Liu, L. Chen, X. Ouyang*, Scintillation properties of β-Ga2O3 single crystal excited by α-ray, IEEE Transactions on Nuclear Science, 67 (2020) 400-404.

[15] C. Chen, Z. Zhu, B. Liu*, C. Cheng, H. Chen, M. Gu, J. Liu, L. Chen, X. Ouyang, Effect of a conformal layer on the photonic crystal for light extraction of scintillator, Nuclear Instruments and Methods in Physics Research A, 950 (2020) 162953.

[16] H. Tang, N. He, Z. Zhu, M. Gu, B. Liu*, J. Xu*, M. Xu, L. Chen, J. Liu, X. Ouyang, Temperature-dependence of X-ray excited luminescence of β-Ga2O3 single crystals, Applied Physics Letters, 115 (2019) 071904.

[17] L. Chen, S. He, L. Zhou, F. Huang, J. Hu, J. Ruan, M. Xu, Z. Zhang, J. Liu, X. Ouyang*, B. Liu*, The dependence of fluorescent decay time of ZnO: Ga crystal on instantaneous non-equilibrium carriers induced by charged particles, Journal of Luminescence, 214 (2019) 116520.

[18] X. Chen, B. Liu*, J. Zhu, M. Gu, H. Chen, J. Liu, L. Chen, X. Ouyang, Light extraction enhancement and directional control of scintillator by using microlens arrays, Optics Express, 26 (2018) 23132-23141.

[19] X. Chen, B. Liu*, Q. Wu, Z. Zhu, J. Zhu, M. Gu, H. Chen, J. Liu, L. Chen, X. Ouyang, Enhanced light extraction of plastic scintillator using large-area photonic crystal structures fabricated by hot embossing, Optics Express, 26 (2018) 11438-11448.

[20] 欧阳晓平, 刘波, 光子晶体闪烁体研究进展, 现代应用物理, 8 (2017) 040101.

[21] Z. Zhu, B. Liu*, C. Cheng, H. Zhang, H. Chen, M. Gu, J. Liu, L. Chen, X. Ouyang, C. Xue, Enhancement of directional broadband luminescence from a scintillation film via guided-mode resonance in a photonic crystal structure, Applied Physics Letters, 110 (2017) 051901.

[22] J. Zhang, B. Liu*, Z. Zhu, Q. Wu, C. Cheng, J. Liu, L. Chen, X. Ouyang*, M. Gu, J. Xu, Enhanced light extraction of LYSO scintillator by photonic crystal structures from a modified porous anodized aluminum oxide layer, Nuclear Instruments and Methods in Physics Research A, 864 (2017) 36-39.

[23] B. Liu*, Z. Zhu, Q. Wu, C. Cheng, M. Gu, J. Xu, H. Chen, J. Liu, L. Chen, X. Ouyang, Plasmonic lattice resonance-enhanced light emission from plastic scintillators by periodical Ag nanoparticle arrays, Applied Physics Letters, 110 (2017) 181905.

[24] B. Liu*, Q. Wu, Z. Zhu, C. Cheng, M. Gu, J. Xu, H. Chen, J. Liu, L. Chen, Z. Zhang, X. Ouyang*, Directional emission of quantum dot scintillators controlled by photonic crystals, Applied Physics Letters, 111 (2017) 081904.

[25] J. Liu, B. Liu*, Z. Zhu, L. Chen, J. Hu, M. Xu, C. Cheng, X. Ouyang, Z. Zhang, J. Ruan, Modified timing characteristic of a scintillation detection system with photonic crystal structures, Optics Letters, 42 (2017) 987-990.

[26] L. Chen*, Z. Zhu, B. Liu*, C. Cheng, J. Liu, J. Ruan, Z. Zhang, X. Ouyang, M. Gu, H. Chen, Improved light output of plastic scintillator by a modified self-assembled photonic crystal, Nuclear Instruments and Methods in Physics Research A, 871 (2017) 63-65.

[27] S. Wu, B. Liu*, Z. Zhu, C. Cheng, H. Chen, M. Gu, L. Chen, J. Liu, X. Ouyang, C. Xue, Guided-mode resonance assisted directional emission of a wavelength-shifting film for application in scintillation detection, Optics Express, 24 (2016) 231.

[28] Z. Zhu, S. Wu, C. Xue, J. Zhao, L. Wang, Y. Wu, B. Liu*, C. Cheng, M. Gu, H. Chen, R. Tai, Enhanced light extraction of scintillator using large-area photonic crystal structures fabricated by soft-X-ray interference lithography, Applied Physics Letters, 106 (2015) 241901.

[29] Z. Zhu, B. Liu*, H. Zhang, W. Ren, C. Cheng, S. Wu, M. Gu, H. Chen, Improvement of light extraction of LYSO scintillator by using a combination of self-assembly of nanospheres and atomic layer deposition, Optics Express, 23 (2015) 7085-7093.

[30] Z. Zhu, B. Liu*, C. Cheng, H. Zhang, S. Wu, M. Gu, H. Chen, L. Chen, J. Liu, X. Ouyang, Improved light extraction of LYSO scintillator by the photonic structure from a layer of anodized aluminum oxide, Nuclear Instruments and Methods in Physics Research A, 786 (2015) 1-4.

[31] H. Zhu, J. Zhang, R. Yanzhang, M. Du, Q. Wang, G. Gao, J. Wu, G. Wu, M. Zhang, B. Liu, When cubic cobalt sulfide meets layered molybdenum disulfide: a core-shell system toward synergetic electrocatalytic water splitting, Advanced Materials, 27 (2015) 4752.

[32] Y. Yi, B. Liu, Scintillator Detectors with Integrated Nanophotonics for Medical Imaging, Photonics Spectra, 49 (2015) 58-62.

[33] B. Liu*, M. Gu, Z. Qi, X. Liu, S. Huang, C. Ni, First-principles study of lattice dynamics and thermodynamic properties of LaCl3 and LaBr3, Physical Review B, 76 (2007) 064307.

[34] B. Liu*, Z. Qi, C. Shi, First-principles study of the intrinsic defects in PbFCl, Physical Review B, 74 (2006) 174101.





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