Laboratory of Infrared Material and Devices

 

Qing Jiao(焦清)  

 

 

 

 

 

 

 

The School of Materials Science and Chemical Engineering,
Ningbo University, 818# Fenghua Road, Jiangbei Distract,
Ningbo 315211, Zhejiang, P. R. China

E-mail: jiaoqingnbu@hotmail.con 
Tel: +86 15888106585
Fax : +86 574 87600946          

EDUCATION

09/2009-6/2014    PhD in Materials Science. Kunming University of Science and Technology, Kunming, China. 
Advisor: Prof. Jianbei Qiu 
09/2005-07/2009   BS in Gemstone Materials and Technology, Kunming University of Science and Technology,
Kunming, China. 

EXPERIENCE

07/2014-present   Programme Director, Chalcogenide Glass Structure and Fluorescence Emission in Mid-Infrared Wavelength, Laboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo, China
05/2017-05/2018  Visiting Scholar, University of Rennes 1, Rennes, France.
Co-advisor: Prof. Xianghua Zhang

SCIENTIFIC ACTIVITIES

- 57 articles in international scientific Journals after peering review
- 6 Patents (3/6 have been legally issued.)
- 3 internationals conferences
- 3 posters in national and international conferences
- Reviewer for Journal of the American Ceramic Society, Journal of Solid State Chemistry, Applied Physics A, Journal of Alloys and Compounds, Ceramics International、Journal of Luminescence、Optical Materials Express、Material Research Bulletin、Journal of Non-Crystalline Solids、Optical Materials.
- Peer review experts for the projects of National Natural Science Foundation of China (NSFC) 

R&D EXPERIENCE

[1] Project Leader of “Preparation of Superionic Chalcogenide Glass for All-Solid Sodium Secondary Batteries and Study on Ion Transport Mechanism”. Supported by National Science Foundation of China (Grant No: 51972176, 01/2020-12/2023),¥716,000, ongoing.
[2] Project Leader of “Study on rare earth luminescence enhancement and mechanism based on the regulation of metal occurrence in borate glass”. Supported by National Science Foundation of China (Grant No: 6160509301/2015-12/2018), ¥240,000, completed.

RESEARCH ACTIVITIES

[1] Microstructure and Mid-infrared emission of Chalcogenide Glasses;
[2] Structure and Luminescent properties of oxide glasses doped with metal and rare earth ions;
[3] Sulfur solid Electrolyte Materials for Solid State Batteries;

TEACHING AND ACTIVITIES

[1] 2011-2014: Assistant Professor, director of the master and bachelor students
[2] 11/2014: Assistant in Research Conference preparations of “The 8th National Seminar and International Forum of Rare Earth Ions Fluorescence” 
[3] 2015-2021: In charging of the Experimental Raman (material structure device) and DSC (material heat analysis device) test guidance for all the lab students and maintenance for the devices

PUBLICATIONS (57 PAPERS)

1.Wang, G., Jiao, Q.*, Zhang, Z.,Zhao, Y.,Lin, C.,Zhang, X.,Ma, H., Dai, S., Xu, T. (2021): Improved electrochemical behavior of Li-S battery with functional WS2@PB-PPy-modified separator. Chemical Engineering Journal Advances. 8, pp.100145. 
2.Shan, H., Jiao Q.*, Zhang, Y., Ma, B., Dong, P., Xu, T. (2021): Analysis of the conductive properties and structural surroundings of sodium ions in GeGaSbS sulfur glass system. Journal of Physics and Chemistry of Solids. 24, pp.110001. 
3.Dong, P., Jiao, Q.*, Zhang, Y., Ma, B., Shan, H., Dai, S., Xu, T. (2021): Effect of Ga/Ge rations on the structure and electric properties of Ga–Ge–Sb–S–AgI system. Chalcogenide Letters. 18[1], pp. 23-29.
4.Zhang, Z., Jiao, Q.*, Lin, C., Zhang, X., Xu, Y., Jia, G., Yao, X. (2020): Prussian blue analog Co3[Co(CN)6]2 as a cathode material for lithium–sulfur batteries. Applied Physics Letters. 117, pp.163905. 
5.Ma, B., Jiao, Q.*, Zhang, Y., Yin, G., Zhang, X., Ma, H., Dai, S., Guang, J. (2020): Conductivity and structural properties of fast Ag-ion-conducting GaGeSbS–AgI glassy electrolytes. Ceramics International. 46, pp. 24882-24886. 
6.Ma, B., Jiao, Q.*, Zhang, Y., Yin, G., Zhang, X., Ma, H., Dai, S. (2020): Structure promoted electrochemical behavior and chemical stability of AgI‐doped solid electrolyte in sulfide glass system. Journal of the American Ceramic Society. 103[11], pp. 6348-6355.
7.Ma, B., Jiao, Q.*., Zhang, Y., Sun, X., Yin, G.; Zhang, X., Ma, H., Liu, X., Dai, S. (2020): Physical and electrochemical behaviors of AgX (X = S/I) in a GeS2–Sb2S3 chalcogenide-glass matrix. Ceramics International. 46[5], pp. 6544-6549. 
8.Long, N., Lin, C., Chen, F., Jiao, Q., Liu, X., Nie, Q. (2020): Nanocrystallization of lead-free Cs3Sb2Br9 perovskites in chalcogenide glass. Journal of the American Ceramic Society. 103[11], pp. 6106-6111.
9.Zhao, J., Zhu, J., Yang, Z., Jiao, Q., Yu, C., Qiu, J., Song, Z. (2020): Selective preparation of Ag species on photoluminescence of Sm3+ in borosilicate glass via Ag+-Na+ ion exchange. Journal of the American Ceramic Society. 103[2], pp. 955-964.
10.Weng, K., Long, N., Guo, Y., Jiao, Q., Dai, S., Lin, C. (2020): Nanocrystallization of α-CsPbI3 perovskite nanocrystals in chalcogenide glass. Journal of the European Ceramic Society. 40[12], pp. 4148-4152.
11.Lin, C., Chen, D., Weng, K., Jiao, Q., Ren, J., Dai, S. (2020): Glassy flux protocol to control lead-free CsSnX3 nanocrystals in transparent solid medium. The Journal of Physical Chemistry Letters. 11[15], pp. 6084–6089.
12.Liu, X., Cheng, C., Zeng, N., Li, X., Jiao, Q., Lin, C., Dai, S. (2020): Tunable broadband upconversion luminescence from Yb3+/Mn2+ co-doped dual-phase glass ceramics. Ceramics International. 46[4], pp. 5271-5277.
13.Cheng, C., Zeng, N., Jiao, Q., Zhang, X., Liu, X. (2020): Tunable upconversion white photoemission in Yb3+/Mn2+/Tm3+ tri-doped transparent glass ceramics. Optical Materials. 100, pp. 109718.
14.Zhang, Y., Jiao, Q.*; Ma, B., Zhang, X., Liu, X., Dai S. (2019): Effective ionic transport in AgI-based Ge(Ga)-Sb-S chalcogenide glasses. Journal of the American Ceramic Society. 102[12], pp. 7065-770. 
15.Ma, B., Jiao, Q.*, Zhang, Y., Sun, X., Yin, G., Zhang, X., Ma, H., Liu, X., Dai, S. (2019): Optimization of glass properties by substituting AgI with Ag2S in chalcogenide system. Ceramics International.45[17], pp. 22694-22698.
16.Zhang, Y., Jiao, Q.*, Ma, B., Lin, C., Liu, X., Dai, S. (2019): Structure and ionic conductivity of new Ga2S3-Sb2S3-NaI chalcogenide glass system. Physica B: Condensed Matter. 570, pp. 53-57.
17.Liu, X., Jiao, Q.*, Zhang, Y., Zheng, J., Sun, X., Yin, Gu. (2019): Silver iodide promoted structural characterization and infrared properties in GeS2–Ga2S3–La2S3 glasses. Infrared Physics & Technology.102, pp. 103064.
18.Zhao, X., Long, N., Sun, X., Yin, G., Jiao, Q.*, Liu, X., Dai, S., Lin, C. (2019): Relationship between composition, crystallization, and phase separation behavior of GeS2–Sb2S3–CsCl chalcogenide glasses. Infrared Physics & Technology. 102, pp. 102978.
19.Huang, X., Jiao, Q.*, Lin, C., Zhang, Y., Dai, S. (2019): Effect of heat treatment on AgI‐rich chalcogenide glasses with enhanced ionic conductivity. Journal of the American Ceramic Society. 102[3], pp. 1309-1315.
20.Dan, H., Ty, N., Tap, T., Vinh, H., Vinh, L., Jiao, Q., Qiu, J. (2019): Effects of Al3+/La3+ ratio on the DSC/DTA and luminescence properties of Bi-doped lanthanum aluminosilicate glasses. Infrared Physics & Technology.103, pp. 103072.
21.Dan, H., Qiu, J., Zhou, D., Jiao, Q., Wang, R., Thai, N. (2019): Super broadband near-infrared emission and energy transfer in Nd–Bi–Er co-doped transparent silicate glass-ceramics. Materials Letters.234, pp. 142-147.
22.Wang, J., Yu, X., Long, N., Sun, X., Yin, G., Jiao, Q., Liu, X., Dai, S., Lin, X. (2019): Spontaneous crystallization of PbCl2 nanocrystals in GeS2-Sb2S3 based chalcogenide glasses. Journal of Non-Crystalline Solids. 521, pp.119543.
23.Zhu, E., Liu, Y., Sun, X., Yin, G., Jiao, Q., Dai, S., Lin, C. (2019): Correlation between Thermo-mechanical properties and network structure in GexS100‒x chalcogenide glasses. Journal of Non-Crystalline Solids: X. 1, pp. 100015.
24.Huang, X., Jiao, Q.*, Lin, C., Xu, T., Zhang, X., Dai, S. (2018): Compositional dependence of the optical properties of novel Ga-Sb-S-XI (XI=PbI2, CsI, AgI) infrared chalcogenide glasses. Journal of the American Ceramic Society. 101[2], pp. 749-755. 
25.Huang, X., Jiao, Q.*, Lin, C., Ma, H., Zhang, X., Zhu, E., Liu, X., Dai, S., Xu, T. (2018): Formation, microstructure and conductivity of a novel Ga2S3-Sb2S3-AgI chalcogenide system. Scientific Reports. 8, pp.1699. 
26.Jiao, Q.*, Li, G., Li, L., Lin, C., Wang, G., Liu, Z., Dai, S., Xu, T., Zhang, Q. (2018): Effect of gallium environment on infrared emission in Er3+-doped gallium- antimony-sulfur glasses. Scientific Reports. 7, pp. 41168.
27.Li, L., Jiao, Q.*, Lin, C., Dai, S., Nie, Q. (2018): Structural characterization and compositional dependence of the optical properties of Ge-Ga-La-S chalcohalide glass system. Optical Materials. 78, pp. 295-301. 
28.Guo, J., Jiao, Q.*, He, X., Guo, H., Tonga, J., Zhang, Z., Jiang, F., Wang, G. (2018): Mid-infrared emission and Judd-Ofelt analysis of Dy3+-doped infrared Ga-Sb-S and Ga-Sb-S-PbI2 chalcohalide glasses. Infrared Physics & Technology. 89, pp. 115-119. 
29.Li, L., Li, G., Zhang, T., Lin, C., Wang, G., Dai, S., Nie, Q., Jiao, Q*. (2017):  Preparation and properties of Ge-Ga-La-S-AgI chalcogenide glass. Ceramics International. 43[5], pp. 4508-4512. 
30.Li, L., Jiao, Q.*, Wang, G., Huang, X., Li, G., Dai, S., Nie, Q. (2017): The effects of lanthanum addition on optical characteristics of Ge-Ga-S-AgI chalcogenide glasses. Infrared Physics & Technology. 83, pp. 238-242. 
31.Li, G., Li, L., Huang, X., Tang, J., Dai, S., Wang, G., Xu, T., Jiao, Q*. (2016): Er3+ doped and Er3+/Pr3+ co-doped gallium-antimony-sulphur chalcogenide glasses for infrared applications. Optical Materials Express. 6[12], pp. 3849-3856. 
32.Zhu, E., Lin, C., Jiao, Q., Song, B., Liu, X., Dai, S. (2017): Effect of gallium addition on physical and structural properties of Ge–S chalcogenide glasses. Ceramics International. 43[15], pp. 12205-12208.
33.Li, L., Bian, J., Jiao, Q., Liu, Z., Dai, S., Lin, C. (2016): GeS2-In2S3-CsI chalcogenide glasses doped with rare earth ions for near- and mid-IR luminescence. Scientific Reports. 6, pp. 37577.
34.Dan, H., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2016): Effect of Mn2+ ions on the enhancement red upconversion emission and energy transfer of Mn2+/Tm3+/Yb3+ tri-doped transparent glass-ceramics. Materials Research Bulletin. 73, pp. 357-361.
35.Zhang, P., Zhang, Q., Zeng, J., Han, J., Zhou, J., Zhang, W., Jiao, Q., Wu, Y., Dai, S. (2016): Fabrication of planar photonic crystals in chalcogenide glass film by maskless projection lithography. Applied Physics B. 122, pp. 244.
36.Jiao, Q.*, Li, G., Zhou, D., Qiu, J. (2015): Effect of the glass structure on emission of rare earth-doped borate glasses. Journal of the American Ceramic Society.  98[12], pp. 4102-4106. 
37.Jiao, Q.*, Wang, X., Qiu, J., Zhou, D. (2015): Effect of silver ions and clusters on the luminescence properties of Eu-doped borate glasses. Materials Research Bulletin. 72, pp. 264-268.
38.Dan, H., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2015): Effect of Mn2+ ions on the enhancement upconversion emission and energy transfer of Mn2+/Tb3+/Yb3+ tri-doped transparent glass-ceramics. Materials Letters. 150, pp. 76-80. 
39.Dan, H., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2015): Effects of gold nanoparticles on the enhancement of upconversion and near-infrared emission in Er3+/Yb3+ co-doped transparent glass–ceramics containing BaF2 nanocrystals. Ceramics International. 41[2], pp. 2648-2653.
40.Dan, H., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2015): Effect of copper nanoparticles on the enhancement of up conversion in the Tb3+/Yb3+ co-doped transparent glass–ceramics. Optical Materials. 39, pp. 160-166.
41.Jiao, Q.*, Qiu, J. (2014): Contribution of Eu ions on the precipitation of silver nanoparticles in Ag-Eu co-doped borate glasses. Materials Research Bulletin. 51, pp. 315-319.
42.Dan, H., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2014): Effect of Mn2+ ions on the enhancement red up conversion emission of Mn2+/Er3+/Yb3+ tri-doped in transparent glass-ceramics. Optics & Laser Technology. 64, pp. 264-268.
43.Yu, H., Yu, X., Xu, X., Jiang, T., Yang, P., Jiao, Q., Qiu, J. (2014): Excitation band extended in CaYAl3O7: Tb3+ phosphor by Ce3+ co-doped for NUV light-emitting diodes. Optics Communications. 317, pp. 78-82.
44.Hu, Y., Qiu, J., Song, Z., Yang, Z., Yang, Y., Zhou, D., Jiao, Q., Ma, C. (2014): Spectroscopic properties of Tm3+/Er3+/Yb3+ co-doped oxyfluorogermanate glasses containing silver nanoparticles. Journal of luminescence. 145, pp. 512-517.
45.Dan, H., Zhou, D., Wang, R., Yu, X., Jiao, Q., Yang, Z., Qiu, J. (2014): Energy transfer and upconversion emission of Er3+/Tb3+/Yb3+ co-doped transparent glass-ceramics containing Ba2LaF7 nanocrystals under heat treatment. Optical Materials. 36[3], pp. 639-644.
46.Yu, X., Zhang, L., Xu, X., Wang, T., Yu, H., Jiang, T., Jiao, Q., Yang, Z., Zhou, D., Qiu, J. (2014): Development of a single-phased Ca3SnSi2O9: Bi3+, Dy3+, Eu3+ phosphor with tri-colors for white light-emitting diodes. Journal of luminescence. 145, pp. 114-118.
47.Jiao, Q.*, Yu, X., Xu, X., Zhou, D., Qiu, J. (2013): Relationship between Eu3+ reduction and glass polymeric structure in Al2O3-modified borate glasses under air atmosphere. Journal of Solid State Chemistry. 202, pp. 65-69.
48.Yu, X., Xu, X., Jiang, T., Yu, H., Yang, P., Jiao, Q., Qiu, J. (2013): Tunable color emitting of CaAl2Si2O8: Eu, Tb phosphors for light emitting diodes based on energy transfer. Materials Chemistry and Physics. 139[1], pp. 314-318.
49.Dan, H., Zhou, D., Wang, R., Hau, T., Jiao, Q., Yang, Z., Qiu, J. (2013): Energy transfer and upconversion emission of Tm3+/Tb3+/Yb3+ co-doped transparent glass-ceramics containing Ba2LaF7 nanocrystals. Journal of non-crystalline solids. 378, pp. 181-185.
50.Xu, X., Yan, L., Yu, X., Yu, H., Jiang, T., Jiao, Q., Qiu, J. (2013): Concentration-dependent effects of optical storage properties in CSSO: Dy. Materials Letters. 99, pp. 158-160.
51.Jiao, Q., Yu, X., Xu, X., Zhou, D., Qiu, J. (2013): Phenomenon of Eu3+ self-reduction induced by B2O3 configuration structure in sodium borate glasses. Journal of Applied Physics. 114[4], pp. 043107.
52.Jiao, Q., Yu, X., Yang, Z., Zhou, D., Qiu, J. (2013): Significant enhancement of Sm3+ photoreduction in halide nanophase precipitated AlF3-Based glasses under femtosecond laser irradiation. Journal of nanoscience and nanotechnology. 13[6], pp. 4101-4105.
53.Yu, X., Xu, X., Yu, H., Jiang, T., Yang, P., Jiao, Q., Qiu, J. (2012): Persistence energy transfer between inequivalent Eu2+ ions in CaAl2Si2O8: Eu2+. Materials Research Bulletin. 47[9], pp. 2696-2699.
54.Yu, X., Xu, X., Yang, P., Yang, Z., Song, Z., Zhou, D., Yin, Z., Jiao, Q., Qiu, J. (2012): Photoluminescence properties and the self-reduction process of CaAl2Si2O8: Eu phosphor. Materials Research Bulletin. 47[1], pp. 117-120.
55.Yu, X., Xu, X., Yang, P., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2012): Optical properties of Eu-activated calcium aluminosilicates synthesized in different atmospheres. Optical Materials. 34[5], pp. 931-934.
56.Yu, X., Xu, X., Yang, P., Jiao, Q., Yang, Z., Song, Z., Qiu, J. (2012): Optical properties of Eu-activated calcium aluminosilicates synthesized in different atmospheres. Optical Materials. 34[5], pp. 931-934.
57.Jiao, Q., Song, Z., Yang, Z., Yu, X., Qiu, J. (2011): Sm3+ photoreduction in BaCl2 nanophases precipitated fluoroaluminate glasses under femtosecond laser irradiation. Optics Letters. 36[16], pp. 3091-3093.

Patents 

1. Jiao, Q.; Li, G.; Xu, T.; Dai, S.; Shen, X.; Zhang, P., Liu, Y. (2018): A preparation device and preparation method of Ga-La-S chalcogenide glass. Chinese National Invention Patent (Patent No CN105601104B) 
2. Lin, C.; Wang, J.; Zhao, X.; Liu, X.; Jiao, Q.; Zhang, P. (2021): Inorganic lead and cesium halide nanocrystalline composite chalcogenide glass ceramic material and its preparation method. Chinese National Invention Patent (Patent No CN109928640B)
3. Wang, H.; Wang, G.; Shen, X.; Xu, Y.; Chen, F.; Lv, Y.; Nie, Q.; Jiao, Q.; Shi, D.; Chen, Y. (2019): A Ge-Se-Zn chalcogenide film material for optical waveguide and its preparation method. Chinese National Invention Patent (Patent No CN106560526B)
4. Lin, C.; Zhu, E.; Dai, S.; Zhang, P.; Xu, Y.; Jiao, Q.; Shen, X.; Wang, X. (2019): A graded refractive index infrared chalcogenide glass ceramic and its preparation method. Chinese National Invention Patent (Patent No CN107162429B)
5. Lin, C.; Wang, J.; Zhao, X.; Jiao, Q.; Liu, X.; Zhang, P.; Dai, S.: A lead halide microcrystalline composite chalcogenide glass ceramic material and its preparation method. Submitted as: Chinese National Invention Patent (Application No CN201811241911.8, application date 24.10.2018) 
6. Lin, C.; Li, L.; Zhu, E.; Jiao, Q.; Dai, S.: A nickel ion-doped oxyfluoride glass ceramic material and its preparation method. Submitted as: Chinese National Invention Patent (Application No CN201610857378.2, application date 28.09.2016) 
* indicates the corresponding author.