Au-S-S-SBA-15催化剂用于苯乙炔水合反应的研究
Au-S-S-SBA-15최화제용우분을결수합반응적연구
Highly active Au nanoparticle catalyst anchored on an organosulfur-bridged SBA-15 support
  • 万方数据
    上海师范大学学报(自然科学版) 상해사범대학학보(자연과학판)
    JOURNAL OF SHANGHAI TEACHERS UNIVERSITY(NATURAL SCIENCES)
    2011年 1期 36-40 ,共5页

    王梅桃%张昉%李和兴

    왕매도%장방%리화흥

    Au-S-S-SBA-15催化剂%有序介孔结构%金纳米颗粒%苯乙炔水合反应 Au-S-S-SBA-15催化劑%有序介孔結構%金納米顆粒%苯乙炔水閤反應
    Au-S-S-SBA-15최화제%유서개공결구%금납미과립%분을결수합반응
    Au-S-S-SBA-15 catalyst%ordered mesoporous structure%Au nanoparticles%phenylacetylene hydration
    在SBA-15骨架中嵌入有机硫基团(-CH2-CH2-CH2-S-S-CH2-CH2-CH2-)原位还原氯金酸,通过有机硫配体络合金纳米颗粒制备得到的新型金负载催化剂结构有序且金纳米颗粒高度分散,在苯乙炔水合反应中表现了较高的活性.
    재SBA-15골가중감입유궤류기단(-CH2-CH2-CH2-S-S-CH2-CH2-CH2-)원위환원록금산,통과유궤류배체락합금납미과립제비득도적신형금부재최화제결구유서차금납미과립고도분산,재분을결수합반응중표현료교고적활성.
    A novel Au nanoparticle catalyst deposited on the SBA-15 support containing -CH2-CH2-CH2-S-S-CH2-CH2-CH2- groups in silica walls (Au-S-S-SBA-15) was synthesized by in situ reduction of HAuCl4. This catalyst exhibited high dispersion degree of Au active sites, ordered mesoporous structure and strong surface hydrophobility,leading to the high activity in phenylacetylene hydration.
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