姓 名：
张乐


性 别：
男

出生年月：
1988年1月

学 历：
博士

职 务：
院工会委员

职 称：
教授

E-mail：
njutzl@163.com

联系电话：
+86-**（WECHAT）

专业与主要研究方向：

1.光功能透明陶瓷设计、制备、应用及产业化
2.激光照明用关键材料与系统研制
3.太阳能激光器增益介质极端环境服役行为
4.大尺寸复合结构透明陶瓷成型技术
5.透明陶瓷缺陷行为与演变机制

教授课程：

1. 无机材料科学基础
2.光学材料制备工艺
3.WEB信息检索
4. 科技论文写作

研究生培养基础要求：

1.自我学习主动性强，善于钻研。
2.对科研项目、产品推进产业化有兴趣。
3.性格开朗、自信，最好擅长某项体育运动。
4.如有读博、国际交流的打算，优先考虑。

个人教育简历：

2009/09–2013/12，南京工业大学，材料科学与工程学院，材料学专业，博士
2005/09–2009/06，南京工业大学，材料科学与工程学院，材料科学与工程专业，本科

个人工作简历：

2013/12–至今，江苏师范大学，物理与电子工程学院/江苏省先进激光材料与器件重点实验室，讲师、副教授，教授
2016/06–2017/06，美国佐治亚理工学院，材料科学与工程学院，访问****

社会兼职：

1. 《应用光学》、《Journal of Advanced Ceramics》、《发光学报》等杂志青年编委；
2. Advanced Materials、Journal of Material Chemistry、Journal of the American Ceramic Society、Optics Express、Journal of Alloys and Compounds、Journal of Materials Science、功能材料、无机化学学报等期刊审稿专家。
3. 江苏锡沂高新材料产业技术研究院副院长，徐州和光照明等技术副总。

课题组主持项目：

1. 国家自然基金面上项目，利用透明荧光陶瓷中“晶界”等缺陷提升激光照明品质的机理研究，2020-2023，陈浩
2. 江苏省科技厅重点研发项目，高流明密度激光照明关键技术，2018-2021，陈浩
3 江苏省科技厅重点研发项目，面向建筑节能的超高亮度蓄光复相陶瓷关键技术研发，2019-07-01 至2022-06-30，张乐
4. 江苏省自然科学基金面上项目，极限维度下激光陶瓷胶态成型关键共性问题研究，2019-07-01 至2022-06-30，张乐
5．国防科工委**项目：“****透明陶瓷研制”，2017-07-01 至2022-06-30，陈浩
6. 国家自然科学基金项目：“基于SOJT效应和局域结构调控的双钙钛矿结构稳定性与发光增效机制(**)，已结题。
7. 江苏锡沂高新材料产业技术研究院、江苏浦亚照明科技股份有限公司、徐州和光照明科技有限公司、江苏云意电气股份有限公司、徐州盛唐光电公司科技有限公司等企业委托研发项目等。

发表论文（近五年）：

[1] Q. Yao, L. Zhang, P. Gao, B. Sun, C. Shao, Y. Ma, T. Zhou, M. Li, H. Chen, Y. Wang, Viscoelastic behaviors and drying kinetics of different aqueous gelcasting systems for large Nd: YAG laser ceramics rods, J. Am. Ceram. Soc., (2020).
[2] Y. Ma, L. Zhang, T. Zhou, B. Sun, Y. Wang, J. Kang, P. Gao, J. Huang, F. A. Selim, C. P. Wong, M. Li, H. Chen, Recorded color rendering index in single Ce,(Pr,Mn):YAG transparent ceramics for high-power white LEDs/LDs, J. Mater. Chem. C, (2020).
[3] P. Gao, L. Zhang, Q. Yao, C. Shao, S. Wei, T. Zhou, H. Chen, H. Yang, Fabrication, mechanical and optical performance of AM-gel casted YAG transparent ceramics, Ceram. Int., 46 (2020) 2365-2372.
[4] 康健, 张乐, 单迎双, 陈浩, 激光白光光源及其光学系统解析, 应用光学, 40 (2019) 787-797.
[5] 康健, 单迎双, 马跃龙, 甄方正, 张乐, 陈浩, J. Kang, L. Zhang, F. Zhen, Y. Shan, Y. Ma, H. Chen, 高流明密度激光照明用光转换材料, 化学进展, 31 (2019) 322-336.
[6] L. Zhang, Q. Yao, Y. Ma, B. Sun, C. Shao, T. Zhou, Y. Wang, F. A. Selim, C. P. Wong, H. Chen, Taguchi method assisted multiple effects optimization on optical and luminescence performance of Ce: YAG transparent ceramics for high power white LEDs, J. Mater. Chem. C, 7 (2019) 11431 -11440.
[7] L. Zhang, J. Wu, P. Stepanov, M. Haseman, T. Zhou, D. Winarski, P. Saadatkia, S. Agarwal, F. A. Selim, H. Yang, Q. Zhang, Y. Wang, C. Wong, H. Chen, Defects and solarization in YAG transparent ceramics, Photonics Research, 7 (2019) 549-557.
[8] Q. Yao, L. Zhang, J. Zhang, Z. Jiang, B. Sun, C. Shao, Y. Ma, T. Zhou, K. Wang, L. Zhang, H. Chen, Y. Wang, Simple mass-preparation and enhanced thermal performance of Ce: YAG transparent ceramics for high power white LEDs, Ceram. Int., 45 (2019) 6356-6362.
[9] J. Wu, Y. Chen, J. Liu, L. Zhang, H. Chen, D. Fan, Ultra-high order harmonic mode-locking of a Raman fiber laser, Applied Physics Express, 12 (2019) 7.
[10] B. Sun, L. Zhang, T. Zhou, C. Shao, L. Zhang, Y. Ma, Q. Yao, Z. Jiang, F. A. Selim, H. Chen, Protected-annealing regulated defects to improve optical properties and luminescence performance of Ce:YAG transparent ceramics for white LEDs, J. Mater. Chem. C, 7 (2019) 4057-4065.
[11] B. Sun, L. Zhang, G. Huang, T. Zhou, C. Shao, K. Wang, H. Chen, Surface texture induced light extraction of novel Ce:YAG ceramic tubes for outdoor lighting, J. Mater. Sci., 54 (2019) 159-171.
[12] C. Shao, L. Zhang, T. Zhou, P. Gao, J. Kang, B. Sun, C. Hou, Y. Li, Q. Yao, J. Wu, H. Chen, Tunable blue/yellow emission in high-power white LED devices packaged with Ce:(Y, Gd)AG transparent ceramics, Ceram. Int., 45 (2019) 14420-14425.
[13] Y. Shan, L. Zhang, T. Zhou, C. Shao, L. Zhang, Y. Ma, Q. Yao, Z. Jiang, F. A. Selim, H. Chen, One-order higher Cr⁴⁺conversion efficiency in Cr⁴⁺: YAG transparent ceramics for high-frequency passively Q-switched laser, Photonics Research, 7 (2019) 933-938.
[14] Y. Ma, L. Zhang, L. Zhang, T. Zhou, Z. Jiang, B. Sun, Q. Yao, H. Chen, Y. Wang, Fabrication and optical properties of divalent Cu2+ ions incorporated Ce:YAG transparent ceramics for white LEDs, Ceram. Int., 45 (2019) 4817-4823.
[15] J. Kang, L. Zhang, Y. Li, Y. Ma, B. Sun, Y. Liu, T. Zhou, F. A. Selim, C. Wong, H. Chen, Luminescence declining behaviors in YAG:Ce transparent ceramics for high power laser lighting, J. Mater. Chem. C, 7 (2019) 14357-14365.
[16] T. Zhou, L. Zhang, C. Shao, B. Sun, W. Bu, H. Yang, H. Chen, F. A. Selim, Q. Zhang, Sintering additives regulated Cr ion charge state in Cr doped YAG transparent ceramics, Ceram. Int., 44 (2018) 13820-13826.
[17] F. Zhen, L. Zhang, Z. Wang, Z. Jiang, S. Wei, X. Fu, R. Sun, C. Wong, W. Bu, H. Chen, pH-induced phase evolution and enhanced physical properties of co-precipitated WO3-CuO powders and reduced bodies for microelectronics packaging, Ceram. Int., 44 (2018) 22601-22608.
[18] L. Zhang, T. Zhou, F. A. Selim, H. Chen, Single CaO accelerated densification and microstructure control of highly transparent YAG ceramic, J. Am. Ceram. Soc., 101 (2018) 703-712.
[19] L. Zhang, Q. Yao, Z. Yuan, Z. Jiang, L. Gu, B. Sun, C. Shao, T. Zhou, W. Bu, Y. Wang, H. Chen, Ammonium citrate assisted surface modification and gel casting of YAG transparent ceramics, Ceram. Int., 44 (2018) 21921-21927.
[20] L. Zhang, B. Sun, C. Shao, F. Zhen, S. Wei, W. Bu, Q. Yao, Z. Jiang, H. Chen, Preparation, band-structure and luminescence of double perovskite Ba₂MgMoO₆:Eu³⁺orange-red phosphor for white LEDs, Ceram. Int., 44 (2018) 17305-17312.
[21] L. Zhang, B. Sun, L. Gu, W. Bu, X. Fu, R. Sun, T. Zhou, F. A. Selim, C. Wong, H. Chen, Enhanced light extraction of single-surface textured YAG:Ce transparent ceramics for high power white LEDs, Appl. Surf. Sci., 455 (2018) 425-432.
[22] L. Zhang, Z. Jiang, Q. Yao, Z. Wang, Y. Zhang, S. Wei, T. Zhou, Y. Ben, R. Sun, H. Chen, Stirring speed assisted homogenization of precipitation reaction for enhanced optical performance of Y₂O₃transparent ceramics, Ceram. Int., 44 (2018) 4967-4972.
[23] Q. Yao, L. Zhang, Z. Jiang, G. Huang, T. Zhou, Y. Ben, S. Wei, R. Sun, H. Chen, Y. Wang, Isobam assisted slurry optimization and gelcasting of transparent YAG ceramics, Ceram. Int., 44 (2018) 1699-1704.
[24] C. Shao, L. Zhang, T. Zhou, L. Gu, B. Sun, Z. Jiang, Q. Yao, W. Bu, K. Wang, H. Chen, Gd₂O₃assisted densification of high quantity (Y, Gd)AG: Ce ceramic solid solutions and their luminescence characteristics, Ceram. Int., 44 (2018) 8672-8678.
[25] Q. Li, L. Zhang, F. Zhen, S. Wei, W. Bu, Q. Yao, Z. Jiang, H. Chen, Photoluminescence enhancement of novel K(Y,Lu)CaWO₆: Eu³⁺red phosphor prepared by controllable citrate-EDTA complexing method, Ceram. Int., 44 (2018) 15565-15571.
[26] Q. Li, L. Zhang, S. Wei, Y. Zhang, R. Sun, T. Zhou, W. Bu, Q. Yao, Z. Jiang, H. Chen, Weakly agglomerated α-Al2O3 nanopowders prepared by a novel spray precipitation method, Ceram. Int., 44 (2018) 11374-11380.
[27] Z. Jiang, L. Zhang, F. Zhen, Q. Yao, W. Bu, T. Zhou, Y. Ma, R. Sun, H. Chen, Y. Wang, Ammonium sulphate and PEG composite surfactant to promote dispersibility of precursors and Y2O3 powders for transparent ceramics, Ceram. Int., 44 (2018) 16859-16867.
[28] J. Hu, R. Chen, C. Zhu, B. Ge, X. Zhu, L. Mi, J. Ma, C. Han, H. Chen, Y. Fei, Label-free Microarray-based Binding Affinity Constant Measurement with Modified Fluidic Arrangement, BioChip Journal, 12 (2018) 11-17.
[29] 张乐, 周天元, 陈浩, 杨浩, 张其土, 宋波, 汪正平, Nd:YAG激光透明陶瓷的研究进展, 材料导报, 31 (2017) 41-50.
[30] 王骋, 魏帅, 甄方正, 周天元, 杨浩, 张乐, 陈浩, 化学沉淀法制备YAG透明陶瓷粉体研究进展, 材料导报, 31 (2017) 77-83.
[31] T. Zhou, L. Zhang, S. Wei, L. Wang, H. Yang, Z. Fu, H. Chen, F. A. Selim, Q. Zhang, MgO assisted densification of highly transparent YAG ceramics and their microstructural evolution, J. Eur. Ceram. Soc., 38 (2017) 687-693.
[32] T. Zhou, L. Zhang, F. A. Selim, H. Yang, Q. Zhang, R. Sun, C. Wong, H. Chen, Annealing induced discoloration of transparent YAG ceramics using divalent additives in solid-state reaction sintering, J. Eur. Ceram. Soc., 37 (2017) 4123-4128.
[33] T. Zhou, L. Zhang, Z. Li, S. Wei, J. Wu, L. Wang, H. Yang, Z. Fu, H. Chen, C. Wong, Q. Zhang, Enhanced conversion efficiency of Cr⁴⁺ion in Cr: YAG transparent ceramic by optimizing the annealing process and doping concentration, J. Alloy. Compd., 703 (2017) 34-39.
[34] T. Zhou, L. Zhang, Z. Li, S. Wei, J. Wu, L. Wang, H. Yang, Z. Fu, H. Chen, D. Tang, C. Wong, Q. Zhang, Toward vacuum sintering of YAG transparent ceramic using divalent dopant as sintering aids: Investigation of microstructural evolution and optical property, Ceram. Int., 43 (2017) 3140-3146.
[35] L. Zhang, Q. Liu, N. Ding, H. Yang, J. Zhang, Q. Zhang, Enhanced Luminescence of Double Perovskite Na(La,Gd)MgWO₆: Eu³⁺Phosphor Based on A-site-induced Energy Transfer, Science of Advance Materials, 9 (2017) 442-451.
[36] L. Zhang, Z. Li, F. Zhen, L. Wang, Q. Zhang, R. Sun, F. A. Selim, C. Wong, H. Chen, High sinterability nano-Y2O3 powders prepared via decomposition of hydroxyl-carbonate precursors for transparent ceramics, J. Mater. Sci., 52 (2017) 8556-8567.
[37] L. Zhang, Y. Ben, J. Wu, H. Yang, C. Wong, Q. Zhang, H. Chen, Alumina assisted grain refinement and physical performance enhancement of yttria transparent ceramics by two-step sintering, Mat. Sci. Eng. A, 684 (2017) 466–469.
[38] L. Zhang, Y. Ben, H. Chen, D. Tang, X. Fu, R. Sun, B. Song, C. Wong, Low temperature-sintering and microstructure of highly transparent yttria ceramics, J. Alloy. Compd., 695 (2017) 2580-2586.
[39] J. Wu, L. Zhang, Y. Ben, H. Chen, X. Fu, C. Wong, Improved full-color emission and switched luminescence in single Ca₃(PO₄)₂: Dy³⁺, Eu³⁺phosphors for white LEDs, J. Alloy. Compd., 697 (2017) 215-221.
[40] J. Wu, C. Zhang, J. Liu, T. Zhao, W. Yao, P. Tang, L. Zhang, H. Chen, Over 19W Single-Mode 1545nm Er,Yb Codoped All-Fiber Laser,, Advances in Condensed Matter Physics, 2017 (2017) 1-5.
[41] S. Wei, L. Zhang, H. Yang, T. Zhou, C. Wong, Q. Zhang, H. Chen, Preliminary study of 3D ball-milled powder processing and SPS-accelerated densification of ZnSe ceramics, Opt. Mater. Express, 7 (2017) 1131-1140.
[42] S. Wei, L. Zhang, Y. Ben, T. Zhou, Z. Li, H. Yang, F. A. Selim, C. Wong, H. Chen, High dispersibility of α-Al2O3 powders from coprecipitation method by step-by-step horizontal ball-milling, Journal of Materials Science: Materials in Electronics, 28 (2017) 16254-16261.
[43] L. Wang, Q. Liu, K. Shen, Q. Zhang, L. Zhang, B. Song, C. Wong, A high quenching content red-emitting phosphor based on double perovskite host BaLaMgSbO6 for white LEDs, J. Alloy. Compd., 696 (2017) 443-449.
[44] Q. Liu, Q. Zhang, X. Li, L. Wang, H. Jiang, Q. Zhang, Effect of NH₄Cl flux used to synthesize double perovskite BaLaMgSbO₆:Eu³⁺phosphor by solid-state reaction method, Journal of Materials Science: Materials in Electronics, 28 (2017) 3373-3379.
[45] Q. Liu, L. Wang, X. Li, L. Miao, M. Yu, Q. Zhang, L. Zhang, The evolution and role of NH4Cl flux used to synthesize double perovskite BaLaMgSbO6: a potential red phosphor for white LEDs, Journal of Materials Science: Materials in Electronics, 28 (2017) 5352-5359.
[46] Q. Liu, L. Wang, W. Huang, L. Zhang, M. Yu, Q. Zhang, Enhanced luminescence properties of double perovskite (Ba, Sr)LaMgSbO6:Eu3+ phosphors based on composition modulation, J. Alloy. Compd., 717 (2017) 156-163.
[47] Q. Liu, L. Wang, W. Huang, X. Li, M. Yu, Q. Zhang, Red-emitting double perovskite phosphors Sr_1?xCa_xLaMgSbO₆:Eu³⁺: Luminescence improvement based on composition modulation, Ceram. Int., 43 (2017) 16292-16299.
[48] Z. Li, L. Zhang, T. Zhou, L. Wang, C. Wong, H. Yang, Q. Zhang, A novel spray co-precipitation method to prepare nanocrystalline Y2O3 powders for transparent ceramics, J. Mater. Sci-mater. El, 28 (2017) 4684-4689.
[49] Z. Jiang, L. Zhang, Q. Yao, S. Wei, T. Zhou, Y. Ben, R. Sun, G. Huang, H. Chen, Y. Wang, Agitator dependent homogeneity enhancement of co-precipitation reaction for improving the dispersibility of precursors and Y2O3 powders, Ceram. Int., 43 (2017) 16121-16127.
[50] N. Ding, L. Zhang, Q. Liu, T. Xu, Q. Zhang, Luminescence properties of novel double perovskite Gd2MgTiO6:Eu3+ phosphors prepared by solid state method, Journal of Materials Science: Materials in Electronics, 28 (2017) 12239-12245.
[51] Y. Ben, L. Zhang, S. Wei, T. Zhou, Z. Li, H. Yang, C. Wong, H. Chen, Improved forming performance of β-TCP powders by doping silica for 3D ceramic printing, Journal of Materials Science: Materials in Electronics, 28 (2017) 5391-5397.
[52] Y. Ben, L. Zhang, S. Wei, T. Zhou, Z. Li, H. Yang, Y. Wang, F. A. Selim, C. Wong, H. Chen, PVB modified spherical granules of β-TCP by spray drying for 3D ceramic printing, J. Alloy. Compd., 721 (2017) 312-319.
[53] 贲玥, 张乐, 魏帅, 孙炳恒, 李正, 周天元, 张其土, 杨浩, 陈浩, 3D打印陶瓷材料研究进展, 材料导报, 30 (2016) 109-118.
[54] L. Zhang, B. Sun, Q. Liu, N. Ding, H. Yang, L. Wang, Q. Zhang, Novel layered perovskite Sr₃Ti₂O₇:Eu³⁺phosphor with high-efficiency luminescence enhanced by charge compensation, J. Alloy. Compd., 657 (2016) 27-31.
[55] Z. Wang, L. Zhang, H. Yang, J. Zhang, L. Wang, Q. Zhang, Effect of gamma-Al₂O₃additives on the microstructure of Y₂O₃ceramics, J. Mater. Sci-mater. El, 27 (2016) 3384-3389.
[56] Z. Wang, L. Zhang, H. Yang, J. Zhang, L. Wang, Q. Zhang, High optical quality Y₂O₃transparent ceramics with fine grain size fabricated by low temperature air pre-sintering and post-HIP treatment, Ceram. Int., 42 (2016) 4238-4245.
[57] B. Song, J. I. Choi, Y. T. Zhu, Z. S. Geng, L. Zhang, Z. Y. Lin, C. C. Tuan, K. S. Moon, C. P. Wong, Molecular Level Study of Graphene Networks Functionalized with Phenylenediamine Monomers for Supercapacitor Electrodes, Chem. Mater., 28 (2016) 9110-9121.
[58] Q. Liu, J. Shen, T. Xu, L. Wang, J. Zhang, Q. Zhang, L. Zhang, Enhanced luminescence of a Eu³⁺-activated double perovskite (Na, Li)LaMgWO₆phosphor based on A site inducing energy transfer, Ceram. Int., 42 (2016) 13855-13862.
[59] Q. Liu, X. Li, B. Zhang, L. Wang, Q. Zhang, L. Zhang, Structure evolution and delayed quenching of the double perovskite NaLaMgWO6:Eu3+ phosphor for white LEDs, Ceram. Int., 42 (2016) 15294-15300.
[60] H. Chen, T. Zhao, H. Yang, L. Zhang, T. Zhou, D. Tang, C. Wong, Y.-F. Chen, D. Shen, Energy level systems and transitions of Ho:LuAG laser resonantly pumped by a narrow line-width Tm fiber laser, Opt. Express, 24 (2016) 27536-27545.
[61] 张乐, 周天元, 杨浩, 乔学斌, 王忠英, 章健, 唐定远, 单分散球形YAG透明陶瓷粉体的喷雾造粒制备及其性能表征, 无机材料学报, 30 (2015) 487-492.
[62] 陈媛芝, 张乐, 黄存新, 章健, 唐定远, 沈德元, TM²⁺:Ⅱ-Ⅵ族中红外激光材料, 化学进展, 27 (2015) 511-521.
[63] T. Zhou, L. Zhang, J. Zhang, H. Yang, P. Liu, Y. Chen, X. Qiao, D. Tang, Improved conversion efficiency of Cr⁴⁺ions in Cr: YAG transparent ceramics by optimization the particle sizes of sintering aids, Opt. Mater., 50, Part A (2015) 11-14.
[64] T. Zhou, L. Zhang, H. Yang, X. Qiao, P. Liu, D. Tang, J. Zhang, Effects of Sintering Aids on the Transparency and Conversion Efficiency of Cr⁴⁺Ions in Cr: YAG Transparent Ceramics, J. Am. Ceram. Soc., 98 (2015) 2459-2464.
[65] L. Zhang, H. Yang, X. Qiao, T. Zhou, Z. Wang, J. Zhang, D. Tang, D. Shen, Q. Zhang, Systematic optimization of spray drying for YAG transparent ceramics, J. Eur. Ceram. Soc., 35 (2015) 2391-2401.
[66] L. Zhang, Q. Liu, N. Ding, H. Yang, L. Wang, Q. Zhang, Dual-channel enhanced luminescence of double perovskite NaGdMgWO₆:Eu³⁺phosphor based on alternative excitation and delayed quenching, J. Alloy. Compd., 642 (2015) 45-52.
[67] L. Zhang, Y. Li, X. Li, H. Yang, X. Qiao, T. Zhou, Z. Wang, J. Zhang, D. Tang, Characterization of spray granulated Nd:YAG particles for transparent ceramics, J. Alloy. Compd., 639 (2015) 244-251.
[68] Q. Liu, L. Wang, L. Zhang, H. Yang, M. Yu, Q. Zhang, Enhanced luminescence and structure evolution of double perovskite (K, Na)LaMgWO₆:Eu³⁺phosphor for white LEDs, J. Mater. Sci-mater. El, 26 (2015) 8083-8088.
[69] Y. Z. Chen, L. Zhang, C. X. Huang, J. Zhang, D. Y. Tang, D. Y. Shen, TM2+ : II-VI Mid-Infrared Materials, Progress in Chemistry, 27 (2015) 511-521.
[70] Y. Chen, L. Zhang, J. Zhang, P. Liu, T. Zhou, H. Zhang, D. Gong, D. Tang, D. Shen, Fabrication of transparent ZnS ceramic by optimizing the heating rate in spark plasma sintering process, Opt. Mater., 50, Part A (2015) 36-39.

授权专利：

[1]张乐, 吴佳东, 贲玥, 陈浩, 高光珍, 王骋, 魏帅. 一种氧化钇纳米粉体及纳米结构的制备方法. (1.2).
[2]张乐，李正，陈浩，杨浩，王骋. 一种喷枪喷涂制备YAG基复合结构透明陶瓷的方法. (6.0).
[3]陈浩, 魏帅, 张乐, 陈旭, 陈德军. 一种基于透明陶瓷荧光体的直管型白光LED光源. (1.1).
[4]张乐, 王忠英, 陈浩, 杨浩, 王骋, 唐定远, 沈德元. 一种磁光氧化铽透明陶瓷及其制备方法. (0.6).
[5]张乐, 李正, 杨浩, 陈浩, 王骋, 乔学斌, 唐. , 沈德元. Y2O3基透明陶瓷粉体的喷射共沉淀制备方法. (5.3).
[6]张乐, 叶勇, 王骋, 唐定远, 沈德元. 一种Li、Mg共掺的双钙钛矿红色荧光粉及其制备方法. (5.7).
[7]张乐, 周天元, 王骋, 杨浩, 章健. 一种稀土掺杂β相Sr2SiO4纳米粉体及其制备方法. (1.3).
[8]张乐, 周天元, 王骋, 杨浩, 章健. 一种稀土掺杂α’相Sr2SiO4纳米粉体及其制备方法. (4.0).
[9]张乐, 章健, 杨浩, 乔学斌, 唐定远, 沈德元, 周天元, 周刊. YAG基透明陶瓷粉体的喷雾造粒制备方法. (2.0).
[10]张乐, 李正, 吴佳东, 陈浩, 高光珍, 王骋, 黄国灿. 一种超薄透明陶瓷流延素坯的烧结防变形方法. (8.X).
[11]张乐, 甄方正, 王忠英, 魏帅, 高光珍, 王骋, 陈浩. 一种高导热低膨胀W-Cu封装材料的制备方法. (5.X).
[12]张乐, 胡峻玮, 陈浩, 陈旭, 陈德军. 一种透明陶瓷荧光管内壁封装蓝光芯片的白光LED光源. (0.6).
[13]张乐, 魏帅, 甄方正, 蒋志刚, 高光珍, 王骋, 陈浩. 一种真空冷冻干燥提高制备氧化物粉体分散性的方法. (7.5).
[14]张乐, 周天元, 王骋. 一种四价铬掺杂钇铝石榴石透明陶瓷的制备方法. (3.8).
[15]张乐, 叶勇. 一种Pr：LuAG闪烁陶瓷的制备方法. (0.0).
[16]张乐, 王忠英. 一种氧化钇基透明陶瓷的制备方法. (2.1).
[17]张乐, 黄国灿. 一种多层复合结构透明陶瓷的制备方法. (9.0).
[18]张乐, 陈媛芝, 王骋. 一种ZnS透明陶瓷的制备方法. (3).
[19]张乐, 侯晨, 蒋志刚, 陈浩. 一种激光烧结制备Tb:Lu₂O₃陶瓷的方法. (0.5).
专利转让
[1]张乐, 陈浩. 转让：一种四价铬掺杂钇铝石榴石透明陶瓷的制备方法. 2018-10-19: 武汉瑞宸腾飞投资有限公司.
[2]张乐, 陈浩. 转让：一种Li、Mg共掺的双钙钛矿红色荧光粉及其制备方法. 2018-10-19: 武汉瑞宸腾飞投资有限公司.
[3]张乐, 陈浩. 转让：一种Pr：LuAG闪烁陶瓷的制备方法. 2018-10-02: 徐州和光照明科技有限公司.
[4]张乐, 陈浩. 转让：一种氧化钇纳米粉体及纳米结构的制备方法. 2018-09-14: 徐州盛唐光电科技有限公司.
[5]张乐, 陈浩. 转让：一种ZnS透明陶瓷的制备方法. 2016-09-07: 徐州和光照明科技有限公司.
[6]张乐, 陈浩. 转让：高活性纳米氧化铝粉体低成本制备技术. 2016-05-01: 徐州和光照明科技有限公司.
[7]张乐, 魏帅, 杨浩, 周天元, 高光珍, 王骋, 陈浩. 转让：一种提高化学沉淀法制备氧化物粉体分散性的方法. 2019-05-31: 新沂市中大石英科技有限公司.
[8]张乐, 周天元, 王骋, 杨浩, 章健. 转让：一种稀土掺杂α’相Sr2SiO4纳米粉体及其制备方法. 2019-03-22: 徐州盛唐光电科技有限公司.
[9]张乐, 周天元, 王骋, 杨浩, 章健. 转让：一种稀土掺杂β相Sr2SiO4纳米粉体及其制备方法. 2019-03-22: 江苏陇盛光学薄膜材料有限公司.

获奖情况：

1. 2014年度，江苏师范大学“本科毕业论文优秀指导教师”
2. 2015年度，江苏师范大学“工会积极分子”
3. 2015年度，江苏师范大学“挑战杯课外学术竞赛优秀指导教师”
4. 2017年度，江苏师范大学“挑战杯课外学术竞赛优秀指导教师”
5. 2017年度，江苏师范大学“本科毕业论文优秀指导教师”
6. 2017年度，江苏省委组织部“江苏省六大人才高峰C类”
7. 2017年度，江苏省科技厅“双创计划（科技副总类）”
8. 2018年度，美国陶瓷学会，优秀审稿专家
9. 2019年度，“互联网+”大学生创新创业大赛(校特等奖、省二等奖)