宋榮君

宋榮君,男,漢族。原籍為黑龍江省綏化市。東北林業大學理學院副教授。

個人簡介

2007年9月 獲得博士學位, 畢業於東北大學/中國科學院長春應化所,攻讀材料與物理化學專業的博士生,研究方向是高聚物降解與阻燃、合成先進碳材料和聚合物納米複合材料。在高分子阻燃方面,目前主要做聚烯烴的催化成炭阻燃。採用複合催化劑高效催化聚烯烴自身成炭,進而達到阻燃的目的。在碳納米管的合成上,主要研究採用廢舊塑膠合成優質的碳納米材料。

科研課題

1、東北林業大學引進人才創新項目“催化聚烯烴自身成炭進行阻燃的研究”, 2007.9–2010.9,負責人

2、國家自然科學基金項目“過渡金屬羧酸鹽硼橋聚矽氧烷衍生物的合成及其阻燃機理”2008.1-2010.12,主要參加人

代表性論文

1.Rongjun Song, Bin Li, Shu Zhao, Liping Li“Transferring Polypropylene into Carbon Nanotubes via Combustion of PP / Zeolites (H-ZSM-5 or H-Beta) / Ni2O3” Journal of Applied Polymer Science, 112, 3423–3428 (2009)

2. Rongjun Song, Zhiwei Jiang, Wuguo Bi, Wenxi Cheng, Jun Lu, Baotong Huang, Tao Tang*, “Combined catalysis of solid acids with nickel catalyst on transformation of polypropylene into carbon nanotubes via pyrolysis”, Chemistry- A European Journal,13, 1534-1540(2007).

3. Rongjun Song, Zhiwei Jiang, Haiou Yu, Jie Liu, Zhijun Zhang, Qingwen Wang, Tao Tang. “Strengthening Carbon Deposition of Polyolefin Using Combined Catalyst as a General Method for Improving Fire Retardancy”. Macromolecular Rapid Communications, 29, 789-793(2008)

4. Rongjun Song, Baoyan Zhang, Baotong Huang, Tao Tang*, “Synergistic effect of supported nickel catalyst with intumescent flame-retardants on flame retardancy and thermal stability of polypropylene”, Journal of Applied Polymer Science, 102, 5988–5993 (2006).

5. Rongjun Song, Zhe Wang, Xiaoyu Meng, Baoyan Zhang, Tao Tang*, “Influences of catalysis and dispersion of organically modified montmorillonite on flame retardantcy of polypropylene nanocomposites”, Journal of Applied Polymer Science, 106, 3488–3494 (2007).

6. Zhiwei Jiang, Rongjun Song, Wuguo Bi, Jun Lu, Tao Tang*, “Polypropylene as a carbon source for the synthesis of multi-walled carbon nanotubes via combustion catalyzed by a combination of modified montmorillonite and nickel compounds”, Carbon, 45,449-458 (2007).

7. Wuguo Bi, Rongjun Song, Xiaoyu Meng, Zhiwei Jiang, Shiyun Li and Tao Tang*, “In situ synthesis of silica gel nanowire/Na+–montmorillonite nanocomposites by the sol–gel route” Nanotechnology, 18, 115620-115627 (2007)

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