| 姓名: | 高祥虎 | 性别: | 男 |
|---|---|---|---|
| 学科类别: | 材料学 | 职务: | |
| 学历: | 博士 | 职称: | 研究员 |
| 电话: | 0931-4968102 | 传真: | 0931-4968019 |
| 电子邮件: | gaoxh@licp.cas.cn | ||
| 通讯地址: | 甘肃省兰州市城关区天水中路18号 | ||
简 历:
高祥虎,博士,研究员,博士生导师,资源化学与能源材料研究中心副主任,低碳能源材料课题组组长,中国科学院特聘骨干岗位人员、中国科学院青年创新促进会会员、中国科学院西部之光重点项目人才、东方电气集团东方锅炉股份有限公司外聘技术专家。近年来围绕电站关键材料及煤炭清洁高效利用,主要开展防护、节能、降碳、增效等功能性表界面材料研发及产业化推广应用。作为项目负责人主持中国科学院战略性先导科技专项(a类)子课题、中国科学院sts区域重点项目、国家自然科学基金、国家电网科技项目、东方电气集团科技攻关项目、三峡集团科技专项、甘肃省重大科技专项、中国科学院青年创新促进会、中国科学院西部之光等。在matter、advanced materials、advanced functional materials、advanced science、chemical engineering journal、journal of materials chemistry a、solar rrl、materials today physics等刊物发表学术论文80余篇,授权国家专利40余件。荣获2016年甘肃省技术发明一等奖,2020年中国科学院兰州分院科技成果转化奖。相关研究成果已在国家电网、东方电气、哈尔滨电气、中国能建、三峡集团、华能、甘肃电投、首航高科等企业示范应用,为国家双碳战略及煤炭清洁高效燃烧利用提供了技术支撑。
研究方向:
基础研究:
(1) 高熵材料的电磁波调控;
(2) 热管理材料与节能;
(3) 纳米光子;
(4) 辐射制冷;
(5) 结冰与防除冰;
(6) 功能涂层材料
新能源材料关键技术
(1) 光热发电光学材料与工程关键技术及示范
(2) 风力发电叶片防护与防覆冰关键技术及示范
(3) 氢能制、储、运关键技术及示范
(4) 太阳能界面水蒸发关键技术及示范
节能降碳关键技术
(1) 燃煤锅炉辐射受热面防护与节能增效关键技术及示范
(2) 工业窑炉提质增效关键技术及示范
(3) 辐射制冷关键技术及示范
获奖及荣誉:
承担科研项目:
(1)中国科学院战略性先导科技专项(a类)子课题,燃煤锅炉防护与节能增效关键技术及示范应用,2022.1-2027.1,主持
(2)洁净能源研究院-榆林学院联合基金,面向工业窑炉高温红外辐射涂层关键技术研发,2022.10-2024.10,主持
(3)甘肃省科技重大专项,高温熔盐聚光发电关键技术研究与示范, 2021.2-2023.12,主持
(4)国家电网,聚能型耐磨材料研发,2021.7-2022.5,主持
(5)中国科学院sts区域重点项目,塔式光热发电吸收涂层关键技术及产业化应用,2020.1-2021.12,主持
(6)中国科学院青年创新促进会,光学高温涂层的可控构筑及构效关系研究,2018.1-2021.12,主持
(7)国家电网,聚能型防冰材料开发及试验研究,2017.1-2019.12,主持
(8)东方电气集团东方锅炉股份有限公司,辐射制冷漫反射涂层关键技术研发,2023.8-2024.12,主持
(9)三峡恒基能脉新能源有限公司,纳米高熵太阳能吸收涂层关键技术研发,2023.1-2024.6,主持
代表论著:
(1)baohua liu, chengyu he*, yang li, zhengtong li, weiming wang, zhongwei lu, zengqiang wang, shijie zhao, gang liu, xianghu gao*. quasi-metallic high-entropy spinel oxides for full-spectrum solar energy harvesting. matter, 2024, 7, 140.
(2)cheng-yu he, yang li, zhuo-hao zhou, bao-hua liu, xiang-hu gao*, high-entropy photothermal materials. advanced materials, 2024, 36, 2400920.
(3)wei-ming wang, bao-hua liu, cheng-yu he*, peng zhao, shi-jie zhao, zeng-qiang wang, zhong-wei lu, hui-xia guo, guo-yu ren*, gang liu, xiang-hu gao*. high-entropy engineering for broadband infrared radiation. advanced functional materials,2023, 33, 2303197.
(4)cheng-yu he, peng zhao, hong zhang, kai chen, bao-hua liu, zhong-wei lu, yang li*, pei-qing la*, gang liu, xiang-hu gao*. efficient warming textile enhanced by a high-entropy spectrally selective nanofilm with high solar absorption. advanced science, 2023, 10, 2204817.
(5)qian yue, li zhang*, cheng-yu he, bao-hua liu, wei-ming wang, zhong-wei lu, gang liu and xiang-hu gao*. polymer composites with hierarchical architecture and dielectric particles for efficient daytime subambient radiative cooling. journal of materials chemistry a, 2023, 11, 3126-3135.
(6)sen ai, yi-nuo wang, tong-jun li, yong-zhi chen*, cheng-yu he, bao-hua liu, gang liu, xiang-hu gao*. a dye-based desalinating evaporator independent on solar absorber of excellent optical properties for efficient desalination. desalination, 2023, 564, 116811.
(7)sen ai, yi-nuo wang, tong-jun li, yong-zhi chen*, cheng-yu he, bao-hua liu, gang liu, xiang-hu gao*. the different dimensional desalinating evaporator independent on solar absorber available to transferring random spectrum into full-wavelength solar utilization. materials today physics, 2023, 37, 101190.
(8)xiao-li qiu, cheng-yu he*, peng zhao, bao-hua liu, hui-xia guo, gang liu, xiang-hu gao*. reinforcement optical performance and thermal tolerance in a tib2-hfb2-based double-layer spectral selective absorber via a pre-annealing strategy. materials today physics, 2022, 24: 100690.
(9)sen ai, meng ma, yong-zhi chen*, xiang-hu gao*, gang liu. metal-ceramic carbide integrated solar-driven evaporation device based on zrc nanoparticles for water evaporation and desalination. chemical engineering journal, 2022, 429: 132014.
(10)sen ai, tong-jun li, yong-zhi chen, cheng-yu he, bao-hua liu, gang liu, xiang-hu gao*. zrb2 assembled all-ceramic solar steam evaporator employing aluminum silicate ceramic fiberboard as a supporting substrate for highly efficient desalination. chemical engineering journal, 2022, 431: 134333.
(11) hui-xia guo*, wei-ming wang, cheng-yu he, bao-hua liu, gang liu, xiang-hu gao*, entropy-assisted high-entropy oxide with a spinel structure toward high-temperature infrared radiation material. acs applied materials & interfaces, 2022, 14(1): 1950–1960.
(12) cheng-yu he, peng zhao, xiao-li qiu, bao-hua liu, gang liu, xiang-hu gao*. engineering a versatile spectrally selective absorber for moderate- and low-temperature application with gradient high-entropy nitride nanofilms. solar rrl, 2022, 6, 2100752.
(13) cheng-yu he, xiang-hu gao*, dong-mei yu, xiao-li qiu, hui-xia guo, gang liu*. scalable and highly efficient high temperature solar absorber coatings based on high entropy alloy nitride alcrtatizrn with different antireflection layers. journal of materials chemistry a, 2021, 9, 6413-6422.
(14) cheng-yu he, xiang-hu gao*, dong-mei yu, shuai-sheng zhao, hui-xia guo*, gang liu*. toward high-temperature thermal tolerance in solar selective absorber coatings: choosing high entropy ceramic hfnbtatizrn. journal of materials chemistry a, 2021, 9, 21270-21280.
(15) cheng-yu he, xiang-hu gao*, dong-mei yu, hui-xia guo, shuai-sheng zhao, gang liu*. highly enhanced thermal robustness and photothermal conversion efficiency of solar selective absorber enabled by high entropy alloy nitride motaticrn nanofilms. acs applied materials & interfaces, 2021, 13, 16987-16996.
(16) cheng-yu he, xiang-hu gao*, xiao-li qiu, dong-mei yu, hui-xia guo, gang liu*. scalable and ultrathin high-temperature solar selective absorbing coatings based on the high-entropy nanoceramic alcrwtanbtin with high photothermal conversion efficiency. solar rrl, 2021, 5, 2000790.
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