已在Small, ACS Appl. Mater. Interface, Adv. Opt. Mater.、J. Mater. Chem. C、J. Phys. Chem. C、Opt. Lett.、Appl. Phys. Lett.、J. Euro. Cream. Soc.、J. Am. Ceram. Soc.等期刊发表SCI收录论文150余篇,其中,一作和通讯作者论文60余篇(包括:JCR分区1区40篇,特邀综述4篇)。相关研究成果被精选为Adv. Opt. Mater和J. Mater. Chem. C杂志的封面和热点文章,并被科技网站报道。
代表性论文(通讯作者以“*”标出)
1)中文论文:
【1】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(
封面文章)
【2】卢小送 ,王慈 ,高志刚*,
任晶*,稀土上转换发光氟硅酸盐微晶玻璃研究进展,发光学报,(2022)43(11),1-21
【3】李文豪, 谢玉清, 石海征, 芦鹏飞,
任晶*,稀土离子在KMnF3纳米晶复合玻璃中的微观分布机理,物理学报,(2022)71(8)(编辑推荐,亮点)
【4】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)
【5】
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
2)英文论文
[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, (2024) in press
[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. (2023) in press
[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. 2302086 (2023) (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 P
2O
5 to SiO
2 Ratio,
Adv. Opt. Mater. 6 (13) (2018) 1800024 (
封面)
[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 Ce
3+-Doped and Gd
3+-Mixed KLaF
4 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-Ga
2O
3:Ni
2+ 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-Ga
2O
3 nanocrystal-silicate glass composite and its influence on the photoluminescence properties,
J. Mater. Chem. C (2018), 6, 2944 (
封面)
[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 Mn
2+ 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 Ni
2+ in Transparent Nanoglass Ceramics: Using Nd
3+ as a Sensitizer and Yb
3+ 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) (
邀请综述,杂志20-21年引用最多的15篇文章之一)
[6] Luyue Niu, Sikai Wang, Zexuan Sui, Yushou Song, Lei Zhao, Lu Liu,
Jing Ren*, and Jianzhong Zhang, Highly stable CsPbBr
3 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 Co
2+/Fe
2+ 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 KY
3F
10 nanocrystals,
Opt. Lett. 44 (19), 4674-4677 (2019)(
网站推荐)
[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 KMnF
3 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 Ga
2S
3 nanocrystals,
Opt. Lett. 37 [24], 5043-5045 (2012)