付浩中文主页电子科技大学主页平台管理系统

付浩

教授博士生导师
性别：男
毕业院校：四川大学
学历：博士研究生毕业
学位：工学博士学位
在职信息：在职人员
所在单位：物理学院
入职时间： 2005-07-05
学科：凝聚态物理
办公地点：清水校区物理学院C531
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个人简介

2005年6月获四川大学博士学位。2005年7月至今，电子科技大学物理学院博士后、讲师、副教授(2007年)、教授(2013年)。2012年12月被聘为博士生导师。2009年5月至2010年5月，美国Ames国家实验室访问学者；2016年7-8月，美国弗吉尼亚联邦大学（Virginia Commonwealth University）访问教授；2018年10-11月，工业和信息化部“先进功能材料开发与应用”赴德代表团成员；2019年9-10月，加拿大麦克马斯特大学（McMaster University）访问教授。主要研究方向：稀土化合物的磁性与磁热效应；上转换发光材料；新型阴极材料。曾获“第三十九批中国博士后科学基金一等资助”。先后承担国家自然科学基金青年基金、面上项目、国际合作项目；教育部留学回国人员科研启动基金；工业和信息化部课题；四川省科技厅科技支撑计划等科研项目。在Chemistry of Materials, Acta Materialia, Applied Physics Letters, Journal of Luminescence等期刊上已发表SCI论文50余篇。申请国家发明专利10余项。

“材料磁光特性及其物理”团队负责人。团队有教授（博导）三人，副教授三人，其中四川省学术带头人及后备人选各一人，电子科技大学核心课程“大学物理”首席教授及骨干教师各一人；博士后3人，博士研究生6人，硕士研究生20余人。团队研究方向还包括固体波谱学、材料多铁性物理、材料机器学习等。

科研项目：

Ø HID新阴极开发，横向，2024.8-2025.4，主持；

Ø 低温大发射钪酸盐研究，海南省自然科学基金，2024.8-2026.7，主持；

Ø 钪酸盐热阴极逸出功，国家级，2023.11-2025.11，主持；

Ø 光动力治疗用新型纳米闪烁体材料研究，重点实验室基金，2023.9-2025.8，主持

Ø 肿瘤细胞多模成像用上转换纳米材料研究，四川省自然科学基金，2022-2023年，主持；

Ø 含钪热阴极发射机理研究，重点实验室基金，2022-2023，主持

Ø 新型电极开发，横向，2022年，主持；

Ø 阴极活性物质开发，横向，2021年，主持；

Ø 国家自然科学基金(No. 51901036)，基于非晶合金的金属锂负极多孔集流体研究，2020/01-2022/12，在研。

Ø 新型阴极研究，中央高校业务费集成攻关项目，2019/09-2020/12，主持；

Ø 稀土磁制冷前沿新材料技术开发，工业和信息化部，2019/01-2019/12，主持；

Ø 国家自然科学基金国际(地区)合作项目(No. 51750110501)，Effect of reducing grain size on obtaining the table-like magnetocaloric effect of multiphase alloys，2017/09-2018/12，已结题，主持。

Ø 国家自然科学基金面上项目(No.51271049)，稀土基原位复相多晶磁致冷材料研究，2013/01-2016/12，已结题，主持。

Ø 国家自然科学基金青年基金(No.50901013)，重稀土基晶体相/大块非晶复合材料的磁热效应研究，2010/01-2012/12，已结题，主持。

Ø 四川省科技厅科技支撑计划(2013GZ0131), 多孔定向耦合器技术及其产业化, 2013/01-2014/12, 已结题，主持。

Ø 教育部留学回国人员启动基金，Gd基室温大块非晶磁致冷材料研究，2013/01-2015/12，已结题，主持。

Ø 中央高校基本科研业务费(No.ZYGX2010J050)，Gd3(Al1-xCox)2(0<x<1)合金的结构、磁性与磁热效应研究，2011/01-2013/12，已结题，主持。

Ø 中国博士后科学基金(一等资助, No.20060390325)，Ni-Co-Al系合金的制备与磁热性能研究，2007/1-2008/5，已结题，主持。

Ø Co-Ni-Al合金的制备与磁熵变研究”，电子科技大学青年科学基金，2007/1-2008/12，已结题，主持。

研究成果：

Chenning Wang , Xiaoyu Zhou, Tianqi Jiang, Zhenrui Xu, Esmond A. Balfour , and Hao Fu*，Thermionic Electron Emission Capacity of the Ba3ScGa2O7.5 Impregnated Cathode，IEEE Transactions on Electron Devices, 71 (2024) 7106
Junshan Hu, Bin Duan, Jiancheng Yao, Tian Luo, Yuxiang Wu, Fengyi Wang, Tong Liu, Changchun Ding, Qunchao Fan, Hao Fu*, Multimodal anti-counterfeiting and optical storage application based on luminescence reversible modification and color change of photochromic phosphor, Applied Materials Today, 40 (2024) 102392
Ruonan Wang, Weilun Gao, Sen Yan, Junshan Hu, Esmond A. Balfour, Hao Fu*, Defect level induced negative thermal quenching of β-Ba₃LuAl₂O_7.5: Yb³⁺, Er³⁺ phosphor, Journal of Alloys and Compounds, 1004(2024):175852
Ruitong Song, Ruonan Wang, Xin Yang, Xiaomin Bian, Hao Fu*, Synergistic modulation of energy transfer and defect engineering toward anti-thermal quenching phosphor for high-sensitivity optical thermometry, Applied Materials Today 38 (2024) 102246
Ruonan Wang, Ruitong Song, Chenning Wang, Tian Luo, Junshan Hu, Hao Fu*, Upconversion luminescence and temperature sensing performance of Zn²⁺-doped Ba₂GdAlO₅: Yb³⁺, Er³⁺ phosphors, Ceramics International 50 (2024) 21083
Ruonan Wang, Qiuyang Li, Tian Luo, Hao Fu*, Effect of vacuum annealing on the upconversion luminescence of β-Ba₂ScAlO₅: Yb³⁺, Ho³⁺ phosphor, Optical Materials 150 (2024) 115318
Xiaoyu Zhou, Tian Luo, Chenning Wang, Hao Fu*, Cryogenic magnetocaloric effect of the CaErAlO4 compound, Journal of Alloys and Compounds, 2024 (976) 173264.
Junshan Hu, Weilong Kong, Xiaomin Bian, Jiazheng Hao, Ruonan Wang, Shaoyi Wu, Lunhua He, Lei Shen*, Hao Fu*, Interstitial Oxygen Modulating Reversible Upconversion Luminescence, Advanced Optical Materials, 2024, 2302157
Tian Luo, Yujie Sun, Ruonan Wang, Xincheng Gong, Ruitong Song, Changchun Ding, Junshan Hu, Hao Fu*, High quenching concentration of the CaLuAlO₄:Er³⁺ upconversion phosphor with short-range energy migration, Applied Physics Letters, 2024(124) 031102
Xin Yang, Ruitong Song, Xincheng Gong, Heping Deng, Changjiu He, Jieke Liu, Peng Zhou, Hao Fu*, Multi-shell structured nanomaterials with strong red upconversion emission for trimodal biomedical imaging, Ceramics International 50 (2024) 1601
付浩，周枭雨，商亚粉，具有低场旋转磁热效应的多晶HoB2合金及其制备方法，中国发明专利：ZL 2022 1 0276161.8
付浩，边晓敏，王若男，李秋阳，具有负热猝灭行为的下转换荧光粉Ba₃EuAl₂O_7.5及其制备方法，中国发明专利：ZL 2022 1 0397019.9
付浩，边晓敏，王若男，具有负热猝灭行为的荧光粉Ba₃Eu_1-xRE_xAl_2-yM _yO_7.5及其制备方法，中国发明专利：ZL 2022 1 0630295.5
付浩，王若男，胡俊山，边晓敏，罗天，杨鑫，一种相变诱导上转换绿光近零热猝灭荧光粉及其制备方法，中国发明专利：ZL 2022 1 0812302.3
付浩，李秋阳，边晓敏，王若男，杨鑫，通过高温真空处理增强上转换荧光材料发射强度的方法，中国发明专利：ZL 2022 1 1639733.0
Ruonan Wang, Xiaomin Bian, Xin Yang, Qiuyang Li, Tian Luo, Junshan Hu, Hao Fu*, Near-zero thermal quenching of upconversion green emission implemented with the polymorphic phase transition, Journal of Luminescence, 261 (2023) 119900
Xiaomin Bian, Ruonan Wang, Qiuyang Li, Qiufeng Shi, Konstantin V. Ivanovskikh, Hao Fu^∗, α-Ba₂ScAlO₅: Eu³⁺ as a promising thermally stable orange-red emission phosphor, Optical Materials 139 (2023) 113761
Xiaomin Bian, Ruonan Wang, Siyang Li, Qiufeng Shi, Hao Fu^∗, Dual anti-thermal quenching induced by defect levels of the Ba₃EuAl₂O_7.5 phosphor, Journal of Luminescence, 257 (2023) 119768
Yanbo Zhou, Tiantian Gong, Mingshan Wu, Luxiang Xu, Hao Fu^∗, Thermionic Emission Capability of the Ba–Sc–Al–O Compound Synthesized by High-Temperature Solid-State Process, IEEE Transactions on Electron Devices, 70 (2023) 1294
Junshan Hu, Xiaomin Bian, Ruonan Wang, Lixin Liu, Nasir Ilyas, Fengyi Wang, Zhiguo Song, Hao Fu^∗, Giant Enhancement in Upconversion Luminescence of β-Ba₂ScAlO₅:Yb³⁺/Er³⁺ Phosphor by Intermediate Band through Ca²⁺ Doping, Chemistry of Materials, 34(2022), 3089
Xiaoyu Zhou, Yafen Shang, Tian Luo, Yifeng Peng, Hao Fu^∗, Large Rotating Magnetocaloric Effect of Textured Polycrystalline HoB₂ Alloy Contributed by Anisotropic Ferromagnetic Susceptibility, Applied Physics Letters, 120 (2022): 132401
Junshan Hu, Xiaomin Bian, Ruonan Wang, Lixin Liu, Yanzhuo Li, Fengyi Wang, Hao Fu^∗, Single red upconversion luminescence in β-Ba₂ScAlO₅: Yb³⁺/Er³⁺ phosphor assisted by Ce³⁺ ions Journal of Luminescence, 246 (2022): 118832
Xiaomin Bian, Junshan Hu, Lixin Liu, Yanzhuo Li, Weiqiang Lv, Nasir Ilyas, Dingming Yang, Hao Fu^∗, Photoluminescence of β-Ba₂ScAlO₅: Eu³⁺ Red Emitting Phosphors Effectively Activated by UV/Near-UV Light, Journal of Luminescence, 245 (2022) 118800
Junshan Hu, Ruonan Wang, Ziqian Wei, XiaoWu, Fengyi Wang, Lixin Liu, Yanzhuo Li, Hao Fu^∗, Qing-Hua Xu, Strong red upconversion luminescence and optical thermometry of Yb³⁺/Er³⁺ Co-doped β-Ba₂ScAlO₅ phosphor, Journal of Alloys and Compounds, 895 (2022):162692
Nasir Ilyas, Jinyong Wang, Chunmei Li, Dongyang Li, Hao Fu, Deen Gu, Xiangdong Jiang, Fucai Liu, Yadong Jiang, and Wei Li, Nanostructured Materials and Architectures for Advanced Optoelectronic Synaptic Devices, Adv. Funct. Mater. 2021, 2110976
周枭雨，付浩^∗，ErB₂多晶合金低场大旋转磁热效应(邀请报告)，中国稀土学会2021学术年会，2021.10成都
Lixin Liu, Xiaoming Bian, Yuxuan Liu, Ruonan Wang, Zhenghu Huang, Junshan Hu, Weiqiang Lv, Nasir Ilyas, Hao Fu^∗, Synthesis and upconversion luminescence of α-Ba₂ScAlO₅ hosted compounds, Journal of Solid State Chemistry, 2021 (304):122559
Zhenghu Huang, Fengyi Wu, Qiang Zheng, Huiyu Xiong, Jian Fang, Man Liu, Ran Yan, Yong Luo, Nasir Ilyas, Hao Fu^∗, Structure and emission properties of barium calcium aluminates synthesized by room-temperature solid-state reaction approach, Materials Chemistry and Physics, 2021(263):124418
Qiang Zheng, Tiantian Gong, Fengyi Wu, Ilyas Nasir, Zhenghu Huang, Yanzhuo Li, Yong Luo, Hao Fu^∗, Effect of Sc₂O₃ addition on the phase composition and electron emission performance of Co-precipitated aluminates for impregnated cathodes, Ceramics International, 2021(47): 18831
Yafen Shang, Xiaoyu Zhou, Yanzhuo Li, Mozharivskyj, Y, Hao Fu^∗, Difference in magnetic properties and magnetocaloric effect of FeRh_0.98Al_0.02 alloy with different sample sizes J. Magn. Magn. Mater., 2021(535): 168034
Qiang Zheng, Zhenghu Huang, Yafen Shang, Man Liu, Yanzhuo Li, Yong Luo, Hao Fu^∗, Single-phase (Ba,Ca)₂ScAlO₅ impregnant for dispenser cathodes with enhanced thermionic emission performance, Ceramics International, 2021(47): 1632
付浩，郑强，罗勇，一种浸渍扩散阴极用含钙的钪铝酸钡及其制备方法，专利号：ZL2020100807590
Junshan Hu, Ruonan Wang, Rangrang Fan, Fengyi Wang, Huiyu Xiong, Zhenghu Huang, Lixin Liu, Hao Fu^∗, Nanocomposites of Au Nanorods and Core-Shell NaGdF₄:Yb³⁺, Er³⁺@NaYF₄ Upconversion Nanoparticles for Temperature Sensing, ACS Applied Nano Materials, 2020(3): 9679
Yutao Cao, Yue Yuan, Yafen Shang, Vladimir I. Zverev, Radel R. Gimaev, R. Barua, R. L. Hadimani, Lan Mei, Gang Guo, Hao Fu^∗, Phase transition and magnetocaloric effect in particulate Fe-Rh alloys, Journal of Materials Science, 2020(55): 13363
Junshan Hu, Ruonan Wang,Rangrang Fan, Zhenghu Huang, Yuxuan Liu, Gang Guo, Hao Fu^∗, Enhanced luminescence in Yb³⁺ doped core-shell upconversion nanoparticles for sensitive doxorubicin detection, Journal of Luminescence, 2020 (217):116812
Hu Junshan, Zhan Shiping, Fu Hao, Nie Guozheng, Hu Shigang, Wu Shaobing, Shi Lichun, Wu Xiaofeng, Liu Yunxin, Dye-Sensitized Core/Shell Upconversion Nanoparticles for Detecting Nitrites in Plant Cells, Particle & Particle Systems Characterization, 2019(36):1900014
Y.F. Shang, Q. Zheng, Y.T. Cao, J. Fang, J.S Hu, H. Fu^∗, Y. Luo, D.M. Yang, Effect of sintering atmospheres on the structure and properties of the 612 type barium-calcium-aluminate for the dispenser cathodes, Ceramics International, 2019(45): 14816
Q. Zheng, Y.F. Shang, Y.T. Cao, J. Fang, J.S Hu, H. Fu^∗, D.M. Yang, Y. Luo, A comparative study of the co-precipitate synthesis of barium-calcium aluminates impregnants for dispenser cathodes by using different precipitants, Ceramics International, 2019(45): 11495
付浩，商亚粉，郑强，胥麟，姚徐，成永东，罗勇，一种浸渍扩散阴极用含钪铝酸盐及其制备方法，中国发明专利，ZL201610016251.8
E. Agurgo Balfour, Y.F. Shang, Y.T. Cao, Fu H.^*, A. A. El-Gendy, R. L. Hadimani. Table-like magnetocalroic effect in multiphase Ho₃₆Co₄₈Al₁₆ alloy [C]. Intermag 2018, 23-27 April, 2018, Singapore, Invited Talk.
付浩，方健, 郑强，一种浸渍扩散阴极用铝酸盐的制备方法, 专利号：ZL201811176250.5
E. Agurgo Balfour, Y.F. Shang, Y.T. Cao, Fu H.^*, A. A. El-Gendy, R. L. Hadimani. Multiphase Ho₃₆Co₄₈Al₁₆ alloy featuring table-like magnetocaloric effect [J]. J. Magn. Magn. Mater., 2018(467):108
Shang, Y.F., Cao Y. T., Balfour E.A., Fu H.^*, Zhong X.C., El-Gendy, A.A., Hadimani R.L., Luo Y., the effect of Co substitution on the magnetic and magnetocaloric properties of Gd₃Ru, J. Magn. Magn. Mater., 2018(451): 368
付浩，Balfour, E.A.，Introductory Physics Experiments for Undergraduates [M], 科学出版社，2017；
Balfour, E.A.,Shang, Y.F., Fu H.^*, El-Gendy, A.A., Hadimani, RL,Luo, Y., Suppression of impurity phases and the study of magnetic and magnetocaloric properties of Ho₂Co₂Al intermetallic compound, J. Magn. Magn. Mater., 2017(443): 79
Ren X.X., Wang J.X., Dong K. ,Liu G., Shu G.X., Fu H.^*, et al. Study of a High-Efficiency 34-GHz Sheet Beam Extended Interaction Oscillator With Low Filling Factor, IEEE T. Electron. Dev., 2016(63): 4074
Wang Y., Wang L., Liu G., Shu G.X., Dong K., Wang J.X., Yan R., Fu H, et al. Wideband Circular TE₂₁ and TE₀₁ Mode Converters with Same Exciting Topologies, IEEE T. Electron. Dev., 2016(63): 4088
Kun Dong, Yong Luo, Wei Jiang, Hao Fu, and Shafei Wang, Magnetron Injection Gun Design for Multifrequency Band Operations, IEEE T. Electron. Dev., 2016 (63): 3719.
Kun Dong, Yong Luo, Wei Jiang, Hao Fu, Numerical Optimization of the Cusp Gun for a W -Band Second-Harmonic Gyro-TWA, IEEE T. Electron. Dev., 2016 (63): 4473.
Z. Ma, Y. F. Shang, E. A. Balfour, Fu H.^*, B. H. Teng, L. Wang, Y. Luo, S. F. Wang, Y. H. Wu, M. G. Han, Comparative study of the magnetocaloric effect in multiphase GdeNi Al alloys: Single peak versus table-like profile in magnetic entropy changes, J. Alloy Compd., 2016 (658): 672-677.
Z. Ma, Y. F. Shang, E. A. Balfour, Y. H. Wu, Fu H.^*, Y. Luo, S. F. Wang, B. H. Teng, M. G. Han，Magnetic and magnetocaloric properties of GdNi_xAl₂₋_x(0.35≤x≤0.70) alloys with multiphase structure, J. MATER. SCI., 2016(51):2134.
Renwen Li, Z. Ma, E. Agurgo Balfourb, Fu H.^*, Y. Luo, Critical behavior study in GdNiAl₂intermetallic compound, J. Alloy Compd., 2016 (658): 672-677.
R.L. Ren, Q.F. Lu, S.H. Lin, X.Y. Dong, H. Fu, S.Y. Wu, M.H. Wu, B.H. Teng, Hysteresis in the phase transition of chocolate, European Journal of Physics, 2016(37): 014003
S.N. Dembele, Z. Ma, Y.F. Shang, Fu H.^*, E.A. Balfour, R.L. Hadimani, D.C. Jiles, B.H. Teng, Y. Luo, Large magnetocaloric effect of GdNiAl₂ compound, J. Magn. Magn. Mater., 2015(391):191.
V. Dayal, V.P. Kumar, R.L. Hadimani, E. A. Balfour, H. Fu, D. C. Jiles, Magnetic Interaction and Electronic Transport in La_0.4Bi_0.6Mn_0.5Ti_0.5O₃ Manganite, IEEE Transactions on Magnetics, 2015(51): 1200104.
E. Agurgo Balfour, Z. Ma, Fu H.^*, R. L. Hadimani, D. C. Jiles, L. Wang, Y. Luo, S. F. Wang, Table-like magnetocaloric effect in Gd₅₆Ni₁₅Al₂₇Zr₂ alloy and its field independence feature, J. Appl. Phys. 118(2015), 123903.
B.J. Simons, B.H. Teng, S.Y. Zhou, L.M. Zhou, X.Y. Chen, M.H. Wu , H. Fu , The possible phase diagrams for the transverse Ising model with temperature-dependent parameters, Chemical Physics Letters, 2014(605):121
Z. Y. Huang, Fu H.^*, R. L. Hadimani, E. Agurgo Balfour, S. N. Dembele, B. H. Teng, and D. C. Jiles, Enhancement of magnetocaloric effect in the Gd2Al phase by Co alloying, J. Appl. Phys. 116 (2014), 183908.
Fu H.^*, Z. Ma, X. J. Zhang, D. H. Wang, B. H. Teng, E. Agurgo Balfour, Table-like magnetocaloric effect in the Gd-Co-Al alloys with multi-phase structure, Appl. Phys. Lett. 2014(104):072401.
H. Fu, R. L. Hadimani*, Z. Ma, M. X. Wang, B. H. Teng, and D. C. Jiles, Magnetocaloric effect in GdCo_xAl₂₋_x system for (0.15 ≤ x ≤ 1) compositions, J. Appl. Phys. 114 (2014), 17A914.
“原位复相材料的平台型磁热效应”，第十五届全国磁学和磁性材料会议，邀请报告(“其他新型磁性功能材料和交叉学科”分会场)，2013.11，广西.桂林；
“Gd-Co-Al原位双相合金的磁热效应”，第二届全国磁热效应材料和磁制冷技术学术研讨会，邀请报告，2011.11，海南.海口；
H. Fu*, M. X. Wang, Q. Zheng, D. B. Luo, B. H. Teng, Crystallography, magnetic and magnetocaloric properties of Gd_57.5Co₂₀Al_22.5 alloy, J. Appl. Phys. 112 (2012), 103916
H. Fu*, Q. Zhen, M. X. Wang, Magnetocaloric effect contributed by in situ dual-phase structure in the Gd-Co-Al alloy, Appl. Phys. Lett. 2011(99): 162504.
H. Fu*, M. Zou, M.S. Guo, Q. Zheng, X.T. Zu, Structural, magnetic, and magnetothermal properties of R₂Co₂Al (R = Tb, and Dy) compounds, Mater. Charact., 2011(62):451
H. Fu*, M. Zou, Magnetic and magnetocaloric properties of ternary Gd-Co-Al bulk metallic glasses, J. Alloy Compd., 2011 (509):4613
H. Fu, M. Zou, Q. Cao, V.K. Pecharsky, K.A. Gschneidner Jr, L.S. Chumbley, Microstructure and magnetocaloric effects in partially amorphous Gd₅₅Co₁₅Al₃₀₋_xSi_x alloys, Mat. Sci. Eng. A-Struct., 2011 (528): 5219
H. Fu*, M. Zou, Niraj K. Singh, modification of magnetic and magntocaloric properties of Dy-Co-Al bulk metallic glass introduced by hydrogen, Appl. Phys. Lett. 2010(97): 262509.
H. Fu, M. Zou, Ya. Mudryk, V.K. Pecharsky, K. A. Gschneidner, Jr., enhancement of the glass-forming ability by Zr microalloying and its influence on the magnetocaloric properties of bulk amorphous Gd-Co-Al, J. Appl. Phys. 2010(108): 053916
H. Fu*, M.S. Guo, H.J. Yu, X.T. Zu, M. Liu, amorphous composition in Gd-Co-Al system extracted from bulk metallic glass matrix composite, J.Appl. Phys., 2009(106): 083513
H. Fu*, M.S. Guo, H.J. Yu, X.T. Zu, large relative cooling power of Gd_52.5Co_16.5Al₃₁ magnetic bulk metallic glass, J. Magn. Magn. Mater., 2009(321): 3342
H. Fu, H.J. Yu, Z.M. Zeng, W.L. Zhou, X.T. Zu, structure and magnetic entropy change of suck-cast Gd₆₀Co₂₆Al₆Ge₈ alloy, J. Magn. Magn. Mater., 2009(321):578
H. Fu*, X. Y. Zhang, H. J. Yu, B. H. Teng, X.T. Zu, large magnetic entropy change of Gd-based ternary bulk metallic glass in liquid-nitrogen temperature range, Solid State Commun., 2008(145):15
H. Fu, Y. Chen, M. Tu, T. Zhang, phase analysis of Gd₅(Si_xGe_1-x)₄ alloys prepared from different purity Gd with x = 0.475 and 0.43, Acta Mater., 2005(53):2377
H. Fu, H. J. Yu, B. H. Teng, X. Y. Zhang, X. T. Zu*, magnetic properties and magnetic entropy change of Co₅₀Ni₂₂Ga₂₈ alloy, J. Alloy Compd., 2009 (474):595
H, Fu, X. T. Zu*, T. D. Shen, structure and phase transformation of melt-spun Gd₅Si₂Ge₂, Thermochim. Acta, 2006(445):53
H, Fu, X. T. Zu*, X. He, W.S. He, T. D. Shen, the effect of low temperature heat treatment on the structure of Gd₅Si₂Ge₂ alloy, J. Alloy Compd., 2007(431):89
H.J. Yu, X.T. Zu, H. Fu, X. Y. Zhang, Z. G. Wang, effect of annealing and heating/cooling rate on the transformation temperatures of NiFeGa alloy, J. Alloy Compd., 2009(470):237
H. J. Yu, H. Fu, J. X. Sun, Z. G. Wang, X. T. Zu, transformation temperatures in polycrystalline Ni_56.5-xFe₁₇Ga_26.5Ge_x ferromagnetic shape memory alloys, J. Alloy Compd., 2009(477):628
H. J. Yu, H. Fu, Z. M. Zeng, J. X. Sun, Z. G. Wang, W. L. Zhou, X. T. Zu, phase transformations and magnetocaloric effect in NiFeGa ferromagnetic shape memory alloy, J. Alloy Compd., 2009(477):732
H. J. Yu, H. Fu, Z. G. Wang, X. T. Zu, effect of Ge addition on the martensitic transformation temperatures of Ni-Fe-Ga alloys, Mat. Sci. Eng. A-Struct., 2009(507):37
T.B. Zhang, Y.G. Chen, H. Fu, B.H. Teng, Y.B. Tang, M.J. Tu, the giant magnetocaloric effect in Gd₅Si₂Ge₂ with low purity gadolinium, Chinese Sci. Bull., 2005(50):1811
付浩，涂铭旌，陈云贵，快速凝固Gd₅Si₂Ge₂合金的显微组织与相组成，稀有金属材料与工程，2005(34):1314
付浩，涂铭旌，陈云贵等，杂质对Gd₅(Si_xGe_1-x)₄合金结构与磁熵变的影响，稀有金属材料与工程，2005(34):1481
付浩，滕保华，陈云贵，涂铭旌等，非化学计量比Gd₅Si₂Ge₂合金的磁热性能研究，功能材料，2003(34):29
付浩，陈云贵，唐永柏，涂铭旌等，制冷机用稀土磁性材料及其形状尺寸与加工，功能材料，，2002(33):598
付浩，陈云贵，张铁邦，涂铭旌，Gd₅Si₂Ge₂相的线状缺陷，中国稀土学报，2005 (23): 409
付浩，陈云贵，肖素芬，涂铭旌，H原子对Gd₅Si_1.72Ge_2.28 合金低场磁性能和磁熵变的影响，四川大学学报（工程科学版），2004(36):71
付浩，陈云贵，涂铭旌，具有大磁熵变的Gd基四元合金，功能材料，2004(35)：3040
张铁邦，付浩，陈云贵，涂铭旌，Sn合金化对Gd₅Si₂Ge₂磁致冷材料结构和性能的影响，稀有金属材料与工程，2005(34):1528
祖小涛，付浩，余华军，一种大尺寸的稀土钆基大块非晶复合材料，中国发明专利，申请号200810045685.6;
付浩，祖小涛，郭茂双，余华军；一种具有良好非晶形成能力的Gd-Co-Al大块金属玻璃，中国发明专利，申请号：200910304111.0;
付浩，祖小涛，郭茂双，Gd-Co-Al-Zr大块金属玻璃及其制备方法，中国发明专利，申请号：200910304121.4;
付浩，郑强，祖小涛，王明轩，Gd-Co-Al-Y块体金属玻璃及其制备方法，中国发明专利，申请号：201110295609.2;
付浩，滕保华，王明轩，具有磁熵变平台的原位复相钆基磁致冷材料及其制备方法，中国发明专利，申请号：201210531798.3。

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教育经历

1995.9 -- 1999.6
西安理工大学金属材料与热处理大学本科毕业工学学士学位

1999.9 -- 2002.6
四川大学材料学硕士研究生毕业工学硕士学位

2002.9 -- 2005.6
四川大学材料学博士研究生毕业工学博士学位

工作经历

2017.12 -- 至今

电子科技大学物理学院副教授、教授

2005.7 -- 2017.11

电子科技大学物理电子学院副教授、教授