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Carbon Dioxide and Alkanes as Electron-sink and Source in a Solar Nanocell: towards Tandem Photosynthesis of Carbon Monoxide and Methanol

二氧化碳和烷烃作为太阳能纳米电池中的电子沉和源：一氧化碳和甲醇的串联光合作用

基本信息

批准号：
EP/F04772X/1
负责人：
Wendy R Flavell
金额：
$ 39.04万
依托单位：
University of Manchester
依托单位国家：
英国
项目类别：
Research Grant
财政年份：
2008
资助国家：
英国
起止时间：
2008 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=EP%2FF04772X%2F1
关键词：
Carbon Dioxide Alkanes Electron sink

项目摘要

A major solar energy challenge is the goal of artificial synthesis in which sunlight is used to generate fuels or high energy chemicals. Natural photosynthesis uses solar energy to generate dioxygen and carbohydrates from carbon dioxide and water, but the targets of artificial photosynthesis can be more diverse. Our vision is to create a solar nano-device which will drive the coupled photo-conversion of methane and carbon dioxide into methanol and carbon monoxide respectively. This challenging target differs fundamentally from the familiar one of splitting water into hydrogen and oxygen. Our target offers products both on the oxidation and the reduction sides that are significant fuels or feedstocks. The photocatalytic reduction of CO2 and oxidation of alkanes represent long-standing goals of great complexity, but we base our concepts on well-established principles. We break down the goals into individual components, each of which is highly challenging within its own right and delivery of each would constitute a major breakthrough. The challenges will be met by a team of scientists, integrated across the four centres of Manchester, Nottingham, York and Norwich, who lead teams with expertise in photophysics, nanoscience, photochemistry, electrochemistry and synthesis. Thus these researchers will seek to establish the science required to underpin technologies that will allow the conversion of abundant and environmentally damaging feedstocks into products of high economic value by constructing a new class of solar device capable of driving green chemical reactions.

一个主要的太阳能挑战是人工合成的目标，其中阳光被用来产生燃料或高能化学品。自然光合作用利用太阳能从二氧化碳和水产生分子氧和碳水化合物，但人工光合作用的目标可以更加多样化。我们的愿景是创造一种太阳能纳米装置，将驱动甲烷和二氧化碳分别耦合光转化为甲醇和一氧化碳。这个具有挑战性的目标与我们熟悉的将水分解为氢和氧的目标有着根本的不同。我们的目标是提供氧化和还原方面的产品，这些产品是重要的燃料或原料。CO2的光催化还原和烷烃的氧化代表了长期存在的非常复杂的目标，但我们的概念是基于既定的原则。我们将目标分解为各个组成部分，每个组成部分本身都具有很大的挑战性，每个组成部分的实现都将构成重大突破。这些挑战将由一个科学家团队来应对，该团队横跨曼彻斯特、诺丁汉、约克和诺维奇四个中心，他们领导的团队拥有物理学、纳米科学、光化学、电化学和合成方面的专业知识。因此，这些研究人员将寻求建立所需的科学来支持技术，通过构建能够驱动绿色化学反应的新型太阳能设备，将丰富的和对环境有害的原料转化为具有高经济价值的产品。