教育经历：

(1) 2003-09 至 2012-06，昆明理工大学与Max-Planck Institute for Solid State Research, (Stuttgart, Germany)联合培养，材料学，博士

(2) 2004-10 至 2008-06，Group of Films Technology,Max-Planck Institute for Solid State Research, Stuttgart, Germany, Ph.D candidate

(3) 1991-09 至 1994-08，昆明贵金属研究所，贵金属新合金，硕士

(4) 1984-09 至 1988-07，四川大学，金属材料及热处理，学士

工作经历：

(1) 2012-10 至 今，昆明理工大学，材料科学与工程学院，教授

(2) 2013-12 至 2014-02，Max-Planck Institute for Solid State Research, Stuttgart, Germany, Group

of Films Technology，Visiting Scientist

(3) 2002-07 至 2012-09，昆明理工大学，材料科学与工程学院，材料与冶金学院，副教授

(4) 1998-09 至 2002-08，昆明理工大学，材料与冶金学院，讲师

(5) 1994-09 至 1998-08，昆明贵金属研究所，合金材料研究室，工程师

(6) 1988-08 至 1991-07，云南第三机床厂，理化检验室，助理工程师

科研项目：

1. 主持完成3项国家自然科学基金项目

(1) 国自科地区基金项目, 51962017，基于原子层热电堆薄膜的高温热流传感器的研究

2020-01-01 至 2023-12-31，40万元；

(2) 国自科地区基金项目, 51462017，Sr3YCo4O10.5薄膜的横向热电效应及其与磁性的关联，2015-01-01 至 2020-12-31，45万元；

(3 )国自科学地区基金项目, 51262016，层状Co基氧化物薄膜的输运各向异性研究，2013-01-01 至 2016-12-31，50万元；

2. 主持或参加完成国家级、国际合作、省部级、教学教改等项目20项。

学术和教学成果：

1. 共发表论文120余篇，SCI论文60余篇，Ei论文20篇，出版专著1部（排第三），申请专利30多项，授权专利20项，培养硕士、博士60余人。

2. 负责或主讲《功能材料科学基础A2，双语》（省级双语示范课，功能材料专业）、国内一流课程《材料科学基础1》（宝石材料专业），以及《材料物理》、《薄膜物理》、《材料性能学》、《热工仪表》、《稀贵金属材料》和《纳米功能材料》等本科生和研究生课程。

3. （曾）任中国材料研究学会热电材料与应用分会理事，中国空间科学学会空间材料委员会委员，中国民主建国会云南省生态文明委员会副秘书长及民建昆明理工大学委员会委员等。

奖励与荣誉：

(1) 获省部级自然科学二等奖1项，三等奖1项，技术进步奖2项；

（2）获学校教学成果奖4项；获校先进女职工、巾帼文明奖，红河红云先进教师奖等。

近年代表作：（通讯作者*）

[1] *Outstanding electrical and thermal transport in Mg-doped CuCrO2 by synergistic tuning of c-axis

orientation and lattice hardening. Ceramics International, 2026, https://doi.org/10.1016/ j.ceramint. 2026. 04.045

[2] * A-site Ca substitution optimizing SrCoO3−δ phase structure and B-site environment for efficient

oxygen evolution. Dalton Transactions,2026, DOI: 10.1039/d6dt00149a.

[3] *Enhanced to near-limit thermal conduction in Cu-rich Cu1+δCrO2 ceramics by effective tuning of orientation, symmetry, and defect concentration. Journal of Alloys and Compounds, 2025, 1014: 178761.

[4] *High stability cubic perovskite Sr0.9Y0.1Co1-xFexO3-δ oxygen evolution by phase control and electrochemical reconstruction. Journal of Alloys and Compounds, 2025, 1010: 177709.

[5]*宽温度区间NH3-SCR催化剂研究进展. 昆明理工大学学报（自然科学版）, 2024, 49(6): 19-29.

[6]*The multiphase structural evolution and electromagnetic properties driven by Co(III) ions of La2-xSrx CoMnO6 (x = 0-1.0) polycrystals. CrystEngComm, 2024, 26(38): 5452-5460.

[7]Ca3Co4O9-based transverse thermoelectric heat flux sensors with high sensitivity and fast response time. Applied Physics Letters. 2024, 124(1): 013905.

[8] *Enhanced electrical conduction and c-axis orientation in copper-rich Cu1+δCrO2 (δ = 0-0.10) ceramics. Materials Today Communications, 2024, 38: 108162.

[9] *Epitaxial growth of c-axis inclined Sr3YCo4O10.5+δ thin film: Insights into laser-induced voltage signals arising from magnetic anisotropy.Applied Physics Letters, 2024, 125(4): 044102.

[10]* Enormous electrothermal conductivity disparity in multiphase structure Sr4-xYxCo4O12-δ (x = 0-1.2) polycrystals.Vacuum, 2024, 221: 112931.

[11]*Introducing gradient Er ions and oxygen defects into SrCoO3 for regulating structural, electrical and magnetic transport properties. Dalton Transactions, 2024, 53(6): 2703-2713.

[12] *Oxygen pressure annealing enhances the B-site ordering degree of double perovskite La2CoMnO6 ceramics. Journal of Materials Science: Materials in Electronics, 2023, 34(32): 2157.

[13]*Mg掺杂增强CuCrO2陶瓷的电传导及各向异性. 人工晶体学报, 2023, 53(1): 60-66.

[14] * Multiple-phase evolution and electrical transport of Sr4-xYxCo4O12-δ (x = 0-1.0): an ordered phase transition process. Dalton Transactions, 2023, 52(14): 4398-4406.

[15] *Ultralow thermal conductivity and enhanced thermoelectric properties in a textured (Ca0.35Sr0.2 Ba0.15 Na0.2Bi0.1)3Co4O9 high-entropy ceramic. Journal of Alloys and Compounds, 2023, 940: 168802.

[16] Enhancing the temperature coefficient of resistance of Pt thin film resistance-temperature-detector by short-time annealing. Ceramics International, 2023.

[17]* Ordered phase transformation and Cu doping effects in room-temperature ferromagnetic Sr3YCo4O10.5+δ. Frontiers in Chemistry, 2022, 10: 1073946.

[18] *Control of metamagnetic phase transition in epitaxial FeRh films by changing atomic order degree.

Journal ofMagnetism and Magnetic Materials, 2022.