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中國儲能網(wǎng)訊：受中國國際儲能大會組委會秘書處邀請，中科院大連化學物理研究所、高性能儲能電池關鍵材料研究組組長、副研究員張洪章將出席第六屆中國國際儲能大會并發(fā)表“鋰硫電池的發(fā)展現(xiàn)狀和前景”精彩演講，以下為具體介紹。

演講題目：鋰硫電池的發(fā)展現(xiàn)狀和前景

Title: Development Status and Prospects of Lithium-sulfur Battery

演講人：張洪章

Speaker：Hongzhang Zhang

職務：中科院大連化學物理研究所、高性能儲能電池關鍵材料研究組組長，副研究員

Position: Associated Professor, Group leader of the “R&D of key materials for advanced energy storage battery” group, Dalian Institute of Chemical Physics, Chinese Academy of Science

個人簡介：

張洪章，男，副研究員，2008年本科畢業(yè)于山東大學化學與化工學院，2013年畢業(yè)于中國科學院大學，同年破格入選大連化學物理研究所百人計劃，現(xiàn)任大連化學物理研究所高性能儲能電池關鍵材料研究組（DNL1701）組長，從事鋰硫電池、全釩液流電池、鋰空氣電池、鋰離子超級電容器、鉛碳電池關鍵材料及器件的應用研究。

代表性研究成果：

?在全釩液流電池研發(fā)領域，首次提出基于“孔徑篩分傳導”機理的多孔離子傳導膜研究思路。開發(fā)的非氟離子傳導膜通過10000次電池耐久性循環(huán)測試，成本低于美國杜邦公司全氟磺酸離子交換膜的1/5，電池性能處于國際領先水平。

?在鋰硫儲能電池研發(fā)領域，研制出能量密度大于900 Wh/kg、1200 Wh/L的鋰硫一次電池，以及能量密度高于600Wh/kg的鋰硫二次電池，處于國際先進水平。

Zhang Hongzhang, male, associated professor. In 2008, he obtained the Bachelor degree from the School of Chemistry and Chemical Engineering, Shandong University. In 2013, he obtained the PhD degree from the University of Chinese Academy of Science. He was exceptionally selected as the “100 talents” of Dalian Institute of Chemical Physics in 2013, and is now the group leader of the “R&D of key materials for the advanced energy storage battery”. He engaged in the research of many batteries, including the Vanadium Flow Battery, Lithium Sulfur Battery, Lithium Air Battery, Lithium Super Capacitor, Lead Carbon battery.

Representative research results:

?As for R&D of the vanadium flow battery: he first proposes the “porous ion conductive membrane” for VFB application and developed one kind of nonfluorine porous ion conducting membrane, which passed the 10,000 VFB durability test cycle, with cost less than one-fifth of the perfluorosulfonic acid ion exchange membrane developed by DuPont, USA. The battery performance is in the international advanced level.

?As for the lithium sulfur battery development: he developed lithium sulfur primary batteries with energy density greater than 900 Wh / kg, 1200 Wh / L. He developed Lithium-sulfur secondary battery with energy density higher than 600 Wh / kg. Both achievement is still in the international advanced level.