姓 名:房正刚
性 别:男
出生年月:1987年6月
籍 贯:江苏宿迁
职 称:副教授、硕导
电子邮箱:zgfang@njtech.edu.cn
办公地点:润德楼B407
学缘与工作经历
2020-至今,新利18彩票,副教授
2017-2020,新利18彩票,校聘副教授
2016-2017,新加坡国立大学,博士后
2015-2016,美国亚利桑那大学,交流学习
2010-2016,新利18彩票,研究生/博士
2006-2010,新利18彩票,本科生/学士
教学与科研简介
主要研究领域
长期从事光谱选择性吸收及辐射调控研究,具体包括:1、耐高温光谱选择性吸收陶瓷,2、光热功能复合陶瓷,3、被动辐射降温技术研究,主持GF领域联合基金、重点实验室基金等国家级、省部级以上项目6项。
教学及教研项目
承担《材料复合原理》、《材料科学基础》、《信息材料》和《纳米材料科学与技术》等课程教学。近年来,主持承担校级教改项目1项,发表教改论文1篇,作为主要完成人获新利18彩票本科教学成果奖一等奖。担任国家级、省级和校级大学生创新训练项目指导老师,指导本科生获江苏省优秀本科毕业论文(设计)团队奖,指导研究生获国家研究生奖学金3人次、获省部级以上科技竞赛和创新创业竞赛2项。获校优秀基层教学组织负责人,材料学院优秀共产党员、学生最喜爱的授课教师、创新创业优秀指导教师、优秀班主任等荣誉。
其他学术任职
前沿技术创新团队“无机及其复合新材料”青年骨干,南京硅酸盐学会工作指导委员会秘书长。
成果简介
高水平代表性论文(近五年)
光热功能陶瓷方向:
[1] Ziqin Lin, ··· Zhenggang Fang*, Chunhua Lu*, Enhancing the spectral selectivity of MgTiO3 via Mn doping for high temperature solar thermal conversion, Journal of the European Ceramic Society, 2026, 46, 118152.
[2] Yang Yuan, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Surface textured La0.5Sr0.5Co1-2xFexNixO3-δ with gradient layer components for high temperature solar thermal conversion, Ceramics International, 2025, 51, 10933-10938.
[3] Zhuolin Xie, ··· Zhenggang Fang*, Chunhua Lu, Zhongzi Xu, Surface reconstruction of La0.5Sr0.5CoO3‑δ ceramic toward high solar selectivity for high-temperature air-stable solar-thermal conversion, ACS Applied Materials & Interfaces, 2024, 16, 44288-44297.
[4] Jialiang Yin, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Weakening the hydrogen bonds with ~3 μm fluorescence for enhanced solar water evaporation, Desalination, 2023, 557, 116599.
[5] Jialiang Yin, ··· Zhenggang Fang*, Chunhua Lu, Zhongzi Xu*, Selective ceramic absorber with vertical pore structure for efficient solar evaporation, Separation and Purifcation Technology, 2022, 292, 121009.
[6] Jialiang Yin, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Tuning the wettability of solar absorbers towards high-efficiency solar vapor generation, Applied Thermal Engineering, 2021, 183, 116224.
[7] Wenqing Li, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Sm0.5Sr0.5CoO3-δ based nacre-like ceramic with enhanced thermal shock resistance for high temperature solar thermal application, Ceramics International, 2021, 47, 11814-11818.
[8] Zhenggang Fang, ··· Yaru Ni*, Chunhua Lu*, Zhongzi Xu, Variable optical properties of La0.5Sr0.5Co1-xNixO3-δ for high-temperature resistant code application, Journal of the European Ceramic Society, 2020, 40, 2239-2244.
被动辐射降温方向:
[1] Shuang Tao, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Construction of a robust radiative cooling emitter for efficient food storage and transportation, ACS Applied Materials & Interfaces, 2024, 16, 23885-23894.
[2] Shuang Tao, ··· Zhenggang Fang*, Yaru Ni, Liang Fang, Chunhua Lu*, Zhongzi Xu, Mechanically switchable multifunctional device for regulating passive radiative cooling and solar heating, ACS Applied Materials & Interfaces, 2023, 15, 17123-17133.
[3] Shuang Tao, ··· Zhenggang Fang*, Yaru Ni, Liang Fang, Chunhua Lu*, Zhongzi Xu, Incorporation form-stable phase change material with passive radiative cooling emitter for thermal regulation, Energy and Buildings, 2023, 288, 113031.
[4] Ying Xu, ··· Zhenggang Fang*, Ni, Yaru, Chunhua Lu*, Zhongzi Xu, A transparent radiative cooling emitter with multi-band spectral regulation for building energy saving, Composites Communications, 2023, 43, 101717.
[5] Shuang Tao, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Construction of efficient passive radiative cooling emitter with selective emission in the whole atmospheric window and durable anti-contamination performance. Solar Energy Materials and Solar Cells, 2021, 224, 110998.
[6] Shuang Tao, ··· Zhenggang Fang*, Chunhua Lu*, Zhongzi Xu, Construction of colorful super-omniphobic emitters for high-efficiency passive radiative cooling. Composites Communications, 2021, 28, 100975.
授权代表性发明专利
[1] 一种选择性吸收-辐射器材料及其制备方法,ZL 2022 1 1322120.4
[2] 一种日夜双效能辐射降温器及其制备方法,ZL 2019 1 0694427.9
[3] 一种红外选择性辐射降温纳米功能组合物及其制备方法,ZL 2019 1 0695003.4
[4] 一种辐射自降温功能涂料及其制备方法,ZL 2019 1 0694439.1
[5] 一种辐射自降温功能纤维织物及其制备方法,ZL 2019 1 0694443.8
科研与教学获奖
[1] 2023.4,第九届北极星建筑奖(2/3);
[2] 2022.9,中国建筑材料联合会·中国硅酸盐学会建筑材料科学技术奖二等奖(9/10)。
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