任晶

       教授，博导，激光材料与器件团队负责人，哈尔滨工程大学学术骨干、模范教师。中国硅酸盐协会特种玻璃分会理事，中国材料研究学会先进玻璃分会委员，《稀土学报》（英文版）和《发光学报》青年编委。长期从事光学玻璃/光纤/薄膜新系统的设计和理论计算，在主动和被动光学方面的应用，研究包括：微晶玻璃、激光玻璃、红外玻璃、磁光玻璃、闪烁玻璃、光纤放大器和激光器、微腔激光器、新型光纤传感器件等。
       发表学术论文150余篇，受邀在国内外学术会议做邀请报告20余次。主持包括国家重点研发计划在内的各类科研项目20余项。获黑龙江省科学技术奖（自然科学类）一等奖1项（排名第2）。
       已培养多名博士和硕士研究生获得研究生国家奖学金、工信部奖学金和国家公派留学资格。与海外多所大学和研究机构具有良好的合作关系，鼓励和支持学生出国学习和深造。
       毕业的学生多在高校、科研院所，以及华为、中兴、康宁、中电集团等与光纤和半导体相关的企业工作。
　

2007/1 - 2009/5，Pardubice大学，无机材料工艺，博士
2004/9 - 2007/3，华东理工大学，无机非金属材料，硕士
2000/9 - 2004/7，华东理工大学，无机非金属材料，学士

2019/06 - 至今，哈尔滨工程大学，物理与光电工程学院，教授
2014/12 - 2019/05，哈尔滨工程大学，物理与光电工程学院，副教授
2014/7 - 2014/11，华东理工大学，材料学院，副教授
2012/12 - 2013/12，教育部科技司（借调）
2011/5 - 2014/6，华东理工大学，材料学院，讲师

10、二维平面中子探测器研制-锂微晶玻璃、国家重点研发计划课题、2023.12-2026.12
9、纳米晶复合玻璃闪烁体性能提升方法和机理研究、国家自然科学基金面上项目，2024.1-2027.12
8、具有稀土敏化特性的Cr2+:II-VI纳晶/硫系玻璃复合光纤可控制备及其关键性能研究，国家自然科学基金面上项目，2019.1-2022.12
7、面向核医学应用的高亮度量子点玻璃闪烁体研制，黑龙江省自然科学基金重点项目，2023.7-2026.7
6、面向信息和通讯技术应用的硫系玻璃纳米结构构建及其性能研究、科技部政府间国际合作交流项目，2019.1-2022.12
5、钛离子掺杂光敏性可控磷石英光纤制备及增敏机理研究、黑龙江省自然科学基金面上项目、2017.10-2020.10
4、高光产额铈掺杂纳米晶复合闪烁玻璃研究，核探测与核电子学国家重点实验室开放课题，2021-2022
3、大增益稀土掺杂光纤材料，中电集团，企业项目，2021-2023
2、闪烁玻璃，北京高能所，企业项目，2022-2023
1、其他部委项目若干

2022/12/18-19, Title: The R&D of the New Glass scintillator with large density and high light yield, 11th Applied Optics and Photonics China (AOPC 2022)
2022/08/19-20, Title: Nano-glass composite scintillators, The 12th Symposium on China Functional Glasses and International Forum on the New Photoelectronic Materials
2021/07/23-26, Title: Transparent luminescent nano-glass composites, The 12th International Conference on Information Optics and Photonics (CIOP 2021)
2020/08/20-23, Title: Progress on ions-doped Mid-Infrared luminescent nano-glasses and fibers, The 11th Symposium on China Functional Glasses and International Forum on the New Photoelectronic Materials
2018/ 11/7-10, Title: The distributions of rare earth and transition metal ions in glass-ceramics and their influence on the luminescent properties, The 10th Symposium on China Functional Glasses and International Forum on the New Photoelectronic Materials

具备自主学习能力，欢迎光学、物理、电子信息、材料等相关专业的本科生和研究生报考。让我们一起创造更美好的生活！

激光物理与材料

围绕光功能玻璃和光纤器件设计、制备和性能调控，发表一作和通讯作者论文70余篇，开发了已知最高光产额的Ce3+掺杂氟氧微晶玻璃闪烁体；开发了具有超宽带近红外增益的有源光纤，可将通讯宽带提高4倍；开发了兼具高密度和高亮度的闪烁玻璃，成为国家大科学装置候选材料；受邀为光学材料领域核心期刊撰写综述文章7篇，研究成果被选为杂志封面和热点，被Optica网站推荐。


[1]高志刚，肖静，任晶，掺杂双相纳米晶复合光子玻璃的研究进展，激光与光电子学进展， 58[15]，1516001（2021）
 
[2]任晶，卢小送，王鹏飞，硫系发光微晶玻璃研究进展，光子学报, （2019）48(11): 1148007
 
[3]孙博超，隋泽萱，王慈，赵雷，高志刚，任晶，纳米晶复合玻璃闪烁体：机遇与挑战，硅酸盐学报，（2022）50（4），1143-1159
 
[23] Zhigang Gao, Lugui Cui, Yushi Chu, Luyue Niu, Lehan Wang, Rui Zhao, Yulong Yang, Xiaofeng Liu, Jing Ren*, and Guoping Dong*, Robust low threshold full-color upconversion lasing in rare-earth activated nanocrystal-in-glass microcavity, Light Sci. Appl. (2024) in press
[22]Jing Xiao*, Zhaoyang Yin, Zhenyu Tang, Zhigang Gao, Lian Zhang and Jing Ren*, Optical up-conversion devices based on organic and inorganic quantum dot materials, J. Mater. Chem. C, 12, 7833 (2024) (front cover)

[21]W. Li, S. Wang, M. Jin, L. Wang, J. Nan, C. Wang*, P. Xiong, Q. M. Hu, L. Liu, J. Ren*, J. Zhang*, Near-infrared Dual-Modal Sensing of Force and Temperature in Total Knee Replacement Using Mechanoluminescent Phosphor of Sr3Sn2O7: Nd, Yb, Small, 20(25), 2310180 (2024)

[20] L. Niu, C. Liu, K. Zhang, C. Wang *, L. Liu, Y. Chu, J. Ren *, J. Zhang * Net gain at the near-infrared from CsPbBr3 quantum dots sensitized Nd3+-activated tellurite glass under solar excitation, Adv. Opt. Mater. 12(15), 2302953 (2024)
[19] S. Wang, C. Hua, L. Wang, C. Wang*, L. Liu, J. Ren,* J. Zhang*, Double Gain of Efficient Ultraviolet-C Phosphor and Fast Scintillator based on Pr3+-doped KY3F10 Nano-Glass Composites, Adv. Opt. Mater. 12(7), 2302086 (2024) (selected as Hot Topic)
[18] C. Luo, Y. Jing, Z. Hua, Z. Sui, C. Wang, P. Hu, L. Zheng, S. Qian*, L. Yang, X. Sun, G. Tang, H. Cai, Y. Zhu, H. Ban, J. Han, Z. Wang, X. Qiao, J. Ren,* and J. Zhang*, Band Gap and Defect Engineering Enhanced Scintillation from Ce3+-Doped Nanoglass Containing Mixed-Type Fluoride Nanocrystals, ACS Appl. Mater. Interfaces 15, 39, 46226-46235 (2023)

[17] Ci Wang, Hai-Zheng Shi, Wen-Hao Li, Qing-Miao Hu, Lu Liu, Jing Ren*, Interface-Mediated Mechanoluminescence Enhancement from Heterojunction Phosphors: Experiment and Theory, ACS Appl. Mater. Interfaces 15, 25, 30891–30901 (2023)
[16] C. Fan, W. Li, J. Nan, P. Hu, S. Qian, Y. Zhu, Y. Sun, Q. Hu, Z. Hua, C. Wang*, J. Ren,* and J. Zhang, Experimental and theoretical study of defect-driven scintillation from γ-Ga2O3 nanophosphor-embedded transparent glass-ceramics, Phys. Rev. B 108, 155414 (2023)

[15] Y. Chu, Q. Hu, Y. Zhang, Z. Gao, Z. Fang, L. Liu, Q. Yan, Y. Liu, S. Sun, G. Peng, E. Lewis, J. Ren,* and J. Zhang,* Topological Engineering of Photoluminescence Properties of Bismuth- or Erbium-Doped Phosphosilicate Glass of Arbitrary P2O5 to SiO2 Ratio, Adv. Opt. Mater. 6 (13) (2018) 1800024 (front cover)
[14] Z. Gao, S. Guo, X. Lu, J. Orava, T. Wagner, L. Zheng, Y. Liu, S. Sun, F. He, P. Yang, J. Ren,* and J. Yang,* Controlling Selective Doping and Energy Transfer between Transition Metal and Rare Earth Ions in Nanostructured Glassy Solids, Adv. Opt. Mater. 6 (13) (2018) 1701407
[13] Z. Gao, B. Sun, Y. Ji, X. Lu, H. Tian, J. Ren,* S. Guo, J. Zhang *, J. Yang *, X. Meng, and K. Tanaka, Photonic engineering of superbroadband near-infrared emission in nanoglass composites containing hybrid metal and dielectric nanocrystals, Photon. Res. 8(5), 698-706 (2020)
[12]B. Sun, Y. Xie, Y. Zhao, X. Li, J. Chen, Y. Song, L. Zhao, Z. Li, H. Zhao, J Ren*, and J. Zhang,* A Highly Robust Ce3+-Doped and Gd3+-Mixed KLaF4 Nano-Glass Composite Scintillator, J. Mater. Chem. C (2021), 9, 17504–17510
[11] Z. Gao , L. Niu , F. ZHANG , S. Wang , J. Xiao *, J. Chen , L. Zhang , J. Ren,* and K. Tanaka, Plasmonic Metal Enhanced Broadband Near-Infrared Emission from Transparent Nano-Glass Composite Containing Hybrid Ag-metal/γ-Ga2O3:Ni2+ Nanocrystals, J. Mater. Chem. C (2021), 9, 15918 - 15926
[10] Z. Gao, X. Lu, Y. Chu, S. Guo, L. Liu, Y. Liu, S. Sun, J. Ren,* and J. Yang,* The distribution of rare earth ions in a γ-Ga2O3 nanocrystal-silicate glass composite and its influence on the photoluminescence properties, J. Mater. Chem. C (2018), 6, 2944 (front cover)
[9] Q. Hu, Z. Gao, X. Lu, J. Ren,* F. He, Z. Fang, Y. Liu, S. Sun, P. Yang and P. Wang,* Bane to boon: intrinsic defect sensitized photoluminescence from Mn2+ or rare-earth ion doped fluorosilicate photonic glasses, J. Mater. Chem. C (2017), 5, 11806
[8] Y. Zhang, X. Li, Z. Lai, R. Zhang, E. Lewis, A. Azmi, Z. Gao, X. Lu, Y. Chu, Y. Liu, Q. Chai, S. Sun, J. Ren*, and J. Zhang*, Largest Enhancement of Broadband Near-Infrared Emission of Ni2+ in Transparent Nanoglass Ceramics: Using Nd3+ as a Sensitizer and Yb3+ as an Energy-Transfer Bridge, J. Phys. Chem. C (2019), 123(15), 10021-10027
[7] J. Ren*, X. Lu, C. Lin*, and R. K. Jain*, Luminescent ion-doped transparent glass ceramics for mid-infrared light sources [invited], Opt. Express 28(15), 21522-21548 (2020) (invited review，one of the 15 mostly cited articles during 20-21)
[6] Luyue Niu, Sikai Wang, Zexuan Sui, Yushou Song, Lei Zhao, Lu Liu, Jing Ren*, and Jianzhong Zhang, Highly stable CsPbBr3 perovskite quantum dot-doped tellurite glass nanocomposite scintillator, Opt. Lett. 46(14), 3448-3451 (2021)
[5] X. Lu, J. Li, L. Yang, J. Ren*, M. Sun, A. Yang, Z. Yang, R. K. Jain, and P. Wang*, Ultrabroad 2.5-5.5 μm mid-Infrared emission from Co2+/Fe2+ codoped nano-chalcogenide glass composite, Opt. Lett. 45(9), 2676-2679 (2020)
[4] Z. Gao, Z. Lai, K. Lu, S. Guo, L. Liu, F. He, P. Yang, J. Ren*, J. Zhang, and J. Yang,* Efficient green upconversion luminescence in highly crystallized ultratransparent nano-glass ceramics containing isotropic KY3F10 nanocrystals, Opt. Lett. 44 (19), 4674-4677 (2019)（recommended by Optica）
[3] Z. Gao, K. Lu, K. Lu, X. Li, Z. Han, S. Guo, L. Liu, F. He, P. Yang, J. Ren*, J. Zhang, and J. Yang,* Ultrabright single-band red upconversion luminescence in highly transparent fluorosilicate glass ceramics containing KMnF3 perovskite nanocrystals, Opt. Lett. 44 [12], 2959-2961 (2019)
[2] W. Shen, J. Ren*, S. Baccaro, A. Cemmi, and G. Chen, Broadband infrared luminescence in γ-ray irradiated bismuth borosilicate glasses, Opt. Lett. 38[4], 516-518 (2013)
[1] J. Ren, B. Li, G. Yang, W. Xu, Z. Zhang, M. Secu, V. Bercu, H. Zeng, and G. Chen, Broadband near-infrared emission of chromium-doped sulfide glass-ceramics containing Ga2S3 nanocrystals, Opt. Lett. 37 [24], 5043-5045 (2012)