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	SYNTHESIS OF HIGH MOLECULAR-WEIGHT SIDE-CHAIN FUNCTIONAL POLYESTER BASED ON ITACONIC ACID VIA ADMET POLYMERIZATION; SYNTHESIS OF HIGH MOLECULAR-WEIGHT SIDE-CHAIN FUNCTIONAL POLYESTER BASED ON ITACONIC ACID VIA ADMET POLYMERIZATION
	An Lv ; Zi-Long Li ; Fu-Sheng Du ; Zi-Chen Li
	2014
关键词	SIDE renewable fossil synthesize polymerization ACID gained backbone monomer facile SIDE renewable fossil synthesize polymerization ACID gained backbone monomer facile
英文摘要	Due to the limited supply of fossil resources and environmental problems caused byconsumption of non-renewable resources,it has gained great interest to synthesize polymers from renewable resources.1,2Itaconic acid,which has been selected as one of the"top 12"bio-based building block molecules by...; Due to the limited supply of fossil resources and environmental problems caused byconsumption of non-renewable resources,it has gained great interest to synthesize polymers from renewable resources.1,2Itaconic acid,which has been selected as one of the"top 12"bio-based building block molecules by...; 高分子物理与化学国家重点实验室; 2
语种	英语
出处	第六届高分子化学国际学术研讨会
内容类型	其他
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/451695]
专题	化学与分子工程学院
推荐引用方式 GB/T 7714	An Lv,Zi-Long Li,Fu-Sheng Du,et al. SYNTHESIS OF HIGH MOLECULAR-WEIGHT SIDE-CHAIN FUNCTIONAL POLYESTER BASED ON ITACONIC ACID VIA ADMET POLYMERIZATION, SYNTHESIS OF HIGH MOLECULAR-WEIGHT SIDE-CHAIN FUNCTIONAL POLYESTER BASED ON ITACONIC ACID VIA ADMET POLYMERIZATION. 2014-01-01.

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