DICP OpenIR
学科主题物理化学
MESOPOROUS CARBON AND CARBON-BASED NANOCOMPOSITES AS CATALYST SUPPORTS FOR CELLULOSE CONVERSION INTO POLYOLS
Wang AQ(王爱琴); Zhang YH(张艳华); Xu JM(徐金铭); Pang JF(庞继峰); Zheng MY(郑明远); Huang YQ(黄延强); Zhang T(张涛)
会议文集On-Site Program
会议名称240th American Chemical Society National Meeting & Exposition
会议日期2010-8-22
2011
会议地点波士顿
页码117-0
出版者待补充
出版地待补充
合作性质分会特邀报告
部门归属1501
主办者ACS
英文摘要Introduction The world is currently facing two important issues in fossil energy consumption, i.e., depletion of fossil energy resources and climate warming caused by CO2 emission. Using renewable resources to obtain sustainable energy supplies and chemicals is required for a prosperous world in the future. Biomass is being considered as a promising alternative to fossil resources for the sustainable supply of fuel and chemicals. In particular, the 2nd generation biomass has the advantages of ample supply, low cost, and non-dangerous to human food supply. Cellulose is the most abundant component (accounting for 35-50%) of the 2nd generation biomass, its catalytic transformation therefore represents a major task in utilization of biomass for renewable production of energy and chemicals [1-3]. In this contribution, we will show that cellulose can be efficiently and selectively converted into polyols in hot water, with the catalysis by carbon supported tungsten carbide or noble metal catalysts.; Introduction The world is currently facing two important issues in fossil energy consumption, i.e., depletion of fossil energy resources and climate warming caused by CO2 emission. Using renewable resources to obtain sustainable energy supplies and chemicals is required for a prosperous world in the future. Biomass is being considered as a promising alternative to fossil resources for the sustainable supply of fuel and chemicals. In particular, the 2nd generation biomass has the advantages of ample supply, low cost, and non-dangerous to human food supply. Cellulose is the most abundant component (accounting for 35-50%) of the 2nd generation biomass, its catalytic transformation therefore represents a major task in utilization of biomass for renewable production of energy and chemicals [1-3]. In this contribution, we will show that cellulose can be efficiently and selectively converted into polyols in hot water, with the catalysis by carbon supported tungsten carbide or noble metal catalysts.
文献类型会议论文
条目标识符http://cas-ir.dicp.ac.cn/handle/321008/115892
专题中国科学院大连化学物理研究所
通讯作者Zhang T(张涛)
推荐引用方式
GB/T 7714
Wang AQ,Zhang YH,Xu JM,et al. MESOPOROUS CARBON AND CARBON-BASED NANOCOMPOSITES AS CATALYST SUPPORTS FOR CELLULOSE CONVERSION INTO POLYOLS[C]. 待补充:待补充,2011:117-0.
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