馬元元
學位:博士
職稱:講師
郵箱🪸:yyma@dhu.edu.cn
聯系方式✋:科技創新樓524室🧝🏽♀️,18817720961
教育及工作經歷:
2019.07-至今,意昂平台,材料科學與工程學院🧝🏿,講師
2016.09-2019.06,復旦大學,化學系,物理化學🪦,博士
2013.09-2016.06🚞,西北師範大學,化學化工學院,應用化學,碩士
2010.09-2012.06,新鄉學院,化學化工學院🧝🏿♂️,化學工程與工藝,學士
研究方向:
1. 電化學能量轉化與存儲方向的研究(包括電解水,水系離子電池)
2. 燃料電池電催化劑及超級電容器電極材料的研究
近幾年承擔的科研項目🏢:
1. 上海市晨光計劃,上海市教育委員會,有機物電極材料的設計及其在分步電解製氫體系的研究,2020/01-2022/12,6萬元🤦♀️,在研,主持
代表性論文:
1. Yuanyuan Ma, Xiaoli Dong, Yonggang Wang*, Yongyao Xia. Decoupling hydrogen and oxygen production in acidic water electrolysis using a polytriphenylamine-based battery electrode. Angew. Chem. Int. Ed. 2018, 57, 2904-2908. (Very Important Paper)
2. Yuanyuan Ma, Zhaowei Guo, Xiaoli Dong, Yonggang Wang*, Yongyao Xia. Organic proton-buffer-electrode to separate hydrogen and oxygen evolution in acid water electrolysis. Angew. Chem. Int. Ed. 2019, 58, 4622-4626.
3. Yuanyuan Ma, Xiaoli Dong, Renhe Wang, Duan Bin, Yonggang Wang*, Yongyao Xia*. Combining water reduction and liquid fuel oxidization by nickel hydroxide for flexible hydrogen production. Energy Storage Materials 2018, 11, 260-266.
4. Yuanyuan Ma, Rongfang Wang*, Hui Wang, Julian Key, Shan Ji*. Control of MnO2 nanocrystal shape from tremella to nanobelt for ehancement of the oxygen reduction reaction activity. J. Power Sources 2015, 280, 526-532.
5. Yuanyuan Ma, Hui Wang, Julian Key, Shan Ji*, Weizhong Lv, Rongfang Wang*. Control of CuO nanocrystal morphology from ultrathin “willow-leaf” to “flower-shaped” for increased hydrazine oxidation activity. J. Power Sources 2015, 300, 344-350.
6. Yuanyuan Ma, Hao Li, Rongfang Wang*, Hui Wang, Weizhong Lv, Shan Ji*. Ultrathin willow-like CuO nanoflakes as an efficient catalyst for electro-oxidation of hydrazine. J. Power Sources 2015, 289, 22-25.
7. Yuanyuan Ma, Hui Wang, Weizhong Lv, Shan Ji*, Bruno G. Pollet, Shunxi Li, Rongfang Wang*. Amorphous PtNiP particle networks of different particle sizes for the electro-oxidation of hydrazine. RSC Adv. 2015, 5, 68655.
8. Yuanyuan Ma, Rongfang Wang*, Hui Wang, Julian Key, Shan Ji*. Room-temperature synthesis with inert bubble templates to produce “clean” PdCoP alloy nanoparticle networks for enhanced hydrazine electro-oxidation. RSC Adv. 2015, 5, 9837.
9. Rongfang Wang, Yuanyuan Ma, Hui Wang, Julian Key, Dan Brett, Shan Ji*, Shibin Yin, Peikang Shen*. A cost effective, highly porous, manganese oxide/carbon supercapacitor material with high rate capability. J. Mater. Chem. A 2016, 4, 5390-5394.(導師一作)
10. Rongfang Wang*, Yuanyuan Ma, Hui Wang, Julian Key, Shan Ji. Gas–liquid interface-mediated room-temperature synthesis of ‘‘clean’’ PdNiP alloy nanoparticle networks with high catalytic activity for ethanol oxidation. Chem. Commun. 2014, 50, 12877.(導師一作)
11. 馬元元, 郭昭薇, 王永剛*, 夏永姚. 電池電極反應的新應用🕢:分步法電解製氫氣. 電化學 2018, 24(5): 444-454.
12. Zhaowei Guo, Yuanyuan Ma, Xiaoli Dong, Jianhang Huang, Yonggang Wang*, Yongyao Xia. An environmentally friendly and flexible aqueous zinc battery using an organic cathode. Angew. Chem. Int. Ed. 2018, 57, 11737-11741.
13. Zhaowei Guo, Yuanyuan Ma, Xiaoli Dong, Mengyan Hou, Yonggang Wang*, Yongyao Xia. Integrating desalination and energy storage using a saltwater-based hybrid sodium-ion supercapacitor. ChemSusChem 2018, 11, 1741-1745.
14. Shan Ji, Yuanyuan Ma, Hui Wang, Julian Key, Dan J.L. Brett*, Rongfang Wang*. Cage-like MnO2-Mn2O3 hollow spheres with high specific capacitance and high rate capability as supercapacitor material. Electrochimica Acta 2016, 219, 540-546.
15. Xiaoli Dong, Hongchun Yu, Yuanyuan Ma, Junwei Lucas Bao, Donald G. Truhlar*, Yonggang Wang*, Yongyao Xia. All-organic rechargeable battery with reversibility supported by “water-in-salt” electrolyte. Chem. Eur. J. 2017, 23, 2560-2565.
16. Jianhang Huang, Zhaowei Guo, Yuanyuan Ma, Duan Bin, Yonggang Wang, Yongyao Xia. Recent progress of rechargeable batteries using mild aqueous electrolytes. Small Methods 2018, 3, 1800272.
17. Duan Bin, Ziyang Guo, Andebet Gedamu Tamirat, Yuanyuan Ma, Yonggang Wang, Yongyao Xia. Crab-shell induced synthesis of ordered macroporous carbon nanofiber arrays coupled with MnCo2O4 nanoparticles as bifunctional oxygen catalysts for rechargeable Zn–air batteries. Nanoscale 2017, 9, 11148.
