在国家和省部级科研项目支持下,利用我国丰富的松脂资源,在松香精细化利用技术领域,构建了拥有自主核心技术的成套技术体系,突破了制约松香深加工产业的发展瓶颈,开发出系列松香衍生物产品,相关技术达到国内领先水平。尤其是松香系列产品氢化、结构稳定化和浅色化生产技术,电子封装用高性能松香树脂制备技术,达到国际先进水平,并成功实现专利技术转让。并在湖南株洲松本、广东科茂、福建武平绿洲、福建邵武星光、云南美森源等多家企业进行了技术推广。参加完成的电子松香助焊剂曾被应用于神州五号飞船上,代表了国内最高技术水平,相关关键技术提升了国内同类产品的质量档次,提高了产品的附加值,技术成果因此获得国家科学技术进步奖奖励。主持制定的标准在松香行业广泛应用、推动了我国松香深加工技术进步和产业发展。 代表性论文 [1] Liwei Dou, Hong Gao,et al. AIEgens based on dehydroabietic acid triarylamine and tetraphenylethene: synthesis, luminescence regulation and application in cell imaging.ACS Sustainable Chemistry & Engineering, 2023, 11, 2927-2937. [2] Yanan Gao, Xinwen Zhang,Jie Song, Liwei Dou, Hong Gao, et al.Construction of biomass-based AIEgens with dehydroabietic acid triarylamine and tetraphenylethene Moieties for non-doped OLEDs,Tetrahedron,2022(121): 132922. [3] Gao Yanan, Dou Liwei, Gao Hong, Song Jie, et al. D-π-D type fluorescent compounds based on dehydroabietic acid triarylamine: Synthesis, photophysical properties and application as hole-transporting materials in perovskite solar cells. Dyes and Pigments, 2021(192): 109453. [4] Guanni Tan, Jie Song, Xinwen Zhang, Yanan Gao, Shibin Shang, Zhanqian Song, Hong Gao*.Three series π-extended fluorescent compounds based on dehydroabietic acid triarylamine moiety: syhthesis, photophysical properties and hole transporting properties,Dyes and Pigments,181(2020)108551. [5] Hong Gao, Jie Song, et al.Fluorescent properties andin vitro studies of new dehydroabietic acid-based diarylamines fluorescent probes,Frontiers of Agricultural Scienceand Engineering,2017(1): 106-115. 代表性授权专利 [1]脱氢枞酸三芳胺基D-π-A化合物作为荧光探针检测溶剂中水含量的应用,ZL202010488808.4. [2]以噻吩衍生物为π桥的脱氢枞酸三芳胺基D-π-A型化合物及其合成方法,ZL 201911001140.X. [3]一种果蔬保鲜剂用水性松香聚合物及其制备方法, L 201611113303.X. [4]一种松香基果蔬保鲜被膜剂及其制备方法,ZL 201410114124.2 [5]脱氢枞酸基芳胺化合物作为金属离子荧光探针的应用,ZL201410629336.4. 获得奖励 [1]国家科技进步二等奖(2008) [2]梁希林业科技技术一等奖(2007) [3]湖南省科技进步二等奖(2004) [4]株州市科技进步一等奖(2004) [5]第二届中国科技期刊农林学科年度优秀论文一等奖(2017) |