科研方向:多孔纳米材料,电催化能源储存和转化 联系方式:huangshaoda_jnu@163.com
个人简述
黄绍达,博士,讲师。2024年7月加入杨植教授团队从事研究工作。研究方向主要包括多孔纳米材料的精细合成及其在能源储存和转化方面的应用。到目前为止,以第一作者在ACS Nano、Appl. Catal., B、Chem. Eng. J.、Small Struct.、Cell Rep. Phys. Sci.、Chem. Commun等期刊发表多篇SCI论文。
学科领域
材料化学,能源化学
教育背景
2023.01---2024.01 新加坡南洋理工大学 吴冬霜教授
2018.09---2024.07 江南大学 博士 杜明亮教授、陆双龙副教授
2014.09---2018.07 东华理工大学 学士
工作经历
2024.7---至今 温州大学 讲师
主要荣誉
2022-2023学年博士研究生国家奖学金
江苏省研究生“新化工新材料”学术创新论坛二等奖
江南大学优秀毕业生
知识产权
1、一种应用于燃料电池领域的PdCu合金纳米催化剂及制备方法 (ZL 201910858147.7)
2、一种核壳结构的PdAu合金纳米颗粒催化剂及其制备方法 (ZL 201911234643.1)
3、一种应用于乙醇燃料电池的PdZn合金纳米催化剂 (ZL 202011031420.8)
4、一种应用共价有机框架催化剂催化氧还原制备双氧水的方法 (ZL 202111331605.5)
主要论文
1. Huang Shaoda, Lu Shuanglong*, Gong Shun, Zhang Qiuju*, Duan Fang, Zhu Han, Gu Hongwei, Dong Weifu, Du Mingliang*. Sublayer stable Fe dopant in porous Pd metallene boosts oxygen reduction reaction. ACS Nano 2021, 16, 1, 522-532.
2. Huang Shaoda, Zhang Bingyan, Wu Dongshuang, Xu Yifan, Hu Hongyin, Duan Fang, Zhu Han, Du Mingliang, Lu Shuanglong*. Linkage engineering in covalent organic frameworks as metal-free oxygen reduction electrocatalysts for hydrogen peroxide production. Applied Catalysis B: Environmental 2024, 340, 123216.
3. Huang Shaoda, Lu Shuanglong*, Hu Hongyin, Xu Fangping, Li Huining, Duan Fang, Zhu Han, Gu Hongwei, Du Mingliang*. Hyper-dendritic PdZn nanocrystals as highly stable and efficient bifunctional electrocatalysts towards oxygen reduction and ethanol oxidation. Chemical Engineering Journal 2021, 420, 130503.
4. Huang Shaoda1, Sun Huimin1, Zhang Bingyan, Hu Hongyin, Duan Fang, Zhu Han, Lu Shuanglong*, Du Mingliang. Guest molecule-directed conversion of covalent organic framework into carbon with synergistic high content N dopants and defects for efficient oxygen reduction. Chemical Engineering Journal 2023, 478, 147424.
5. Huang Shaoda, Lu Shuanglong*, Hu Yiming, Cao Yongyong*, Li Yang, Duan Fang, Zhu Han, Jin Yinghua, Du Mingliang*, Zhang Wei*. Covalent organic frameworks with molecularly electronic modulation as metal‐free electrocatalysts for efficient hydrogen peroxide production. Small Structures 2023, 4, 2200387.
6. Huang Shaoda, Wang Jinyan, Hu Hongyin, Li Yang, Xu Fangping, Duan Fang, Zhu Han, Lu Shuanglong*, Du Mingliang. Bimetallic palladium-copper nanoplates with optimized d-band center simultaneously boost oxygen reduction activity and methanol tolerance. Journal of Colloid and Interface Science 2023, 630, 375-384.
7. Huang Shaoda, Zhang Bingyan, Sun Huimin, Hu Hongyin, Wang Jinyan, Duan Fang, Zhu Han, Du Mingliang, Lu Shuanglong*. Constructing single atom sites on bipyridine covalent organic frameworks for selective electrochemical production of H2O2. Chemical Communications 2023, 59, 69, 10424-10427.
8. Huang Shaoda, Lu Shuanglong*, Hu Hongyin, Cao Binbin, Li Huining, Duan Fang, Zhu Han, Gu Hongwei, Du Mingliang*. A stable PdCu@Pd core-shell nanobranches with enhanced activity and methanol-tolerant for oxygen reduction reaction. Electrochimica Acta 2020, 354, 136680.
9. Huang Shaoda, Zheng Jiayao, Qin Zhiwei, Li Yang, Xu Fangping, Duan Fang, Zhu Han, Lu Shuanglong*, Du Mingliang. Constructing abundant active interfaces in ultrafine Ru nanoparticles doped nickel–iron layered double hydroxide to promote electrocatalytic oxygen evolution. Electrochimica Acta 2022, 427, 140835.
10. Hu Yiming1, Huang Shaoda1, Wu Jingyi, Xu Qiucheng, Li Xiaonian, Jin Yinghua, Zhu Han, Du Mingliang, Lu Shuanglong*, Zhang Wei*. Shape-persistent phthalocyanine cages. Cell Reports Physical Science, 2023, 4, 2.
