郭露村 - 南京工业大学 - 材料科学与工程学院

个人简介

1978.02-1982.02，南京化工学院无机非金属材料科学专业学习，获得学士学位 1982.02-1993.08，江苏省陶瓷研究所，任PTC研究室主任 1993.08-1998.03，日本长冈技术科学大学化学系材料工学专业硕士博士研究生学习（硕博连读），获工学博士学位 1998.03-至今，南京工业大学（原南京化工大学）材料科学与工程学院教师（1998.12教授；1999.09博士研究生导师）

研究领域

纳米陶瓷材料、纳微米粉体分散控制、新能源材料，以及高温工程节能材料和技术等。在流变学领域，创立了高分子-水-陶瓷粉体系统的不均匀吸附理论，成功解释了该系统的一系列流变学现象。近年来，团队着重于材料高温热性能的基础和应用研究。在陶瓷材料热性能评价技术方面，提出了抗热震性指数、弯曲和挤压蠕变指数的概念，建立了陶瓷材料抗热震性、抗高温蠕变性的高效评价方法。

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Shancheng Yu, Shoucheng He, Han Chen, Lucun Guo. Effect of calcination temperature on oxidation state of cobalt in calcium cobaltite and relevant performance as intermediate-temperature solid oxide fuel cell cathodes. Journal of Power Sources, 280, 2015: 581-587 Hailu Dai, Shoucheng He, Han Chen, Shancheng Yu, Lucun Guo. Performance enhancement for solid oxide fuel cells using electrolyte surface modification. Journal of Power Sources, 280, 2015: 406-409 Hailu Dai, Han Chen, Shoucheng He, Guifan Cai, Lucun Guo. Improving solid oxide fuel cell performance by a single-step co-firing process. Journal of Power Sources, 286, 2015: 427-430 Qing Ni, Han Chen, Lin Ge, Shancheng Yu, Lucun Guo. Investigation of La1-xSmx-ySryCoO3-δ cathode for intermediate temperature solid oxide fuel cells. Journal of Power Sources, 349, 2017: 130-137 Yanli Zhang, Guifan Cai, Yiheng Gu, Lin Ge, Yifeng Zheng, Han Chen, Lucun Guo. Modifying the electrode-electrolyte interface of anode supported solid oxide. Energy Conversion and Management, 171, 2018: 1030-1037 Yiheng Gu, Yanli Zhang, Lin Ge, Yifeng Zheng, Han Chen, Lucun Guo. YSZ electrolyte support with novel symmetric structure by phase inversion process for solid oxide fuel cells. Energy Conversion and Management, 177, 2018: 11-18 Yali Luo, Xueyan Li, Yanli Zhang, Lin Ge, Han Chen, Lucun Guo. Electrochemical properties and structural stability of Ga- and Y- codoping in Li7La3Zr2O12 ceramic electrolytes for lithium-ion batteries. Electrochimica Acta, 294, 2019: 217-225 Yiheng Gu, Yanli Zhang, Yifeng Zheng, Han Chen, Lin Ge, Lucun Guo. PrBaMn2O5+δ with praseodymium oxide nano-catalyst as electrode for symmetrical solid oxide fuel cells. Applied Catalysis B: Environmental, 257(15), 2019: 117868