可见光促进葡萄糖和亚硝基苯同时选择性转化的研究
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- 英文论文题名:Simultaneous and selective transformation of glucose and nitrosobenzene driven by visible-light
- 论文作者:周宝文 ; 宋金良 ; 吴天斌 ; 刘会贞 ; 谢超 ; 杨冠英 ; 韩布兴
- 英文论文作者:Baowen Zhou ; Jinliang Song ; Tianbin Wu ; Huizhen Liu ; Chao Xie ; Guanying Yang ; Buxing Han ; Beijing National Laboratory for Molecular Sciences ; Institute of Chemistry ; Chinese Academy of Sciences
- 年:2016
- 作者机构:北京分子科学国家实验室中国科学院化学研究所分子科学中心;
- 论文关键词:葡萄糖 ; 阿拉伯糖 ; 亚硝基苯 ; 氧化偶氮苯 ; 光催化
- 会议召开时间:2016-07-01
- 会议录名称:中国化学会第30届学术年会摘要集-第三十三分会:绿色化学
- 语种:中文
- 分类号:O644.1
- 学会代码:ZGHY
- 会议名称:中国化学会第30届学术年会-第三十三分会 ; 绿色化学
- 会议地点:中国辽宁大连
- 主办单位:中国化学会
- 学会名称:中国化学会
- 页数:1
- 文件大小:262k
- 原文格式:D
- 会议级别:全国
摘要
氧化偶氮苯是材料科学以及农药化学中的重要中间体。同时,阿拉伯糖是重要的生物基化学品,可以用于生产DNA、维生素B2等。开发高效、高选择性、绿色生产路线用于制备氧化偶氮苯和阿拉伯糖是非常有意义的研究课题。本工作以负载Pd纳米粒子的多孔性Cd S为催化剂,研究了可见光条件下葡萄糖和亚硝基苯同时选择性转化为阿拉伯糖和氧化偶氮苯的反应。研究发现,在水溶液中,亚硝基苯可以被水和葡萄糖中的氢还原为氧化偶氮苯,选择性可以达到92%。同时,葡萄糖可以通过C1-C2键的选择性断裂,被光生空穴氧化为阿拉伯糖,选择性可以达到70%。研究表明,反应过程中产生的甲酸抑制了阿拉伯糖的进一步氧化,从而使得该体系可以高选择性地由葡萄糖得到阿拉伯糖。在对比实验的基础上,我们提出了可能的反应机理。
Herein we carried out the work on simultaneous transformation of glucose to arabinose and nitrosobenzene to azoxybenzene by photocatalysis. It was demonstrated that Pd nanoparticles supported on mesoporous Cd S were very active and selective for the reactions in water under visible light irradiation. Nitrosobenzene could be reduced to azoxybenzene with a selectivity of 92% by hydrogen from water and glucose. At the same time, glucose was oxidized to arabinose with high selectivity. The reaction mechanism was studied on the basis of control experiments.
Herein we carried out the work on simultaneous transformation of glucose to arabinose and nitrosobenzene to azoxybenzene by photocatalysis. It was demonstrated that Pd nanoparticles supported on mesoporous Cd S were very active and selective for the reactions in water under visible light irradiation. Nitrosobenzene could be reduced to azoxybenzene with a selectivity of 92% by hydrogen from water and glucose. At the same time, glucose was oxidized to arabinose with high selectivity. The reaction mechanism was studied on the basis of control experiments.
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