State of the art and perspectives in catalytic processes for CO2 conversion into chemicals and fuels: The distinctive contribution of chemical catalysis and biotechnology

Aresta Michele; Dibenedetto Angela; Quaranta Eugenio

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State of the art and perspectives in catalytic processes for CO2 conversion into chemicals and fuels: The distinctive contribution of chemical catalysis and biotechnology

机译：二氧化碳转化为化学品和燃料的催化过程的最新技术和观点：化学催化和生物技术的独特贡献

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The need to reduce the emission of carbon dioxide into the atmosphere is pushing toward the use of "renewable carbon", so to avoid as much as possible burning "fossil carbon". It would be possible to complement the natural "carbon cycle" by developing man-made industrial processes for "carbon recycling", converting, thus, "spent carbon" as CO2 into "working carbon", as that present in valuable chemicals or fuels. Such practice would fall into the utilization of "renewable carbon", as the man-made process would perfectly mimic the natural process. An order of complexity higher would be represented by the integration of biotechnology and catalysis for an effective CO2 conversion, using selective catalysts such as enzymes, or even whole microorganisms, coupled to chemical technologies for energy supply to enzymes, using perennial sources as sun or wind or geothermal as primary energy.

机译：减少向大气中排放二氧化碳的需求正在推动使用“可再生碳”，从而尽可能避免燃烧“化石碳”。通过开发用于“碳循环”的人造工业过程，从而将以二氧化碳为燃料的“废碳”转化为有价值的化学物质或燃料中存在的“工作碳”，有可能补充自然的“碳循环”。这样的做法将归入“可再生碳”的利用，因为人造过程将完全模仿自然过程。复杂性高一个级别的代表是生物技术与催化的有效结合，包括使用选择性催化剂（例如酶或什至是整个微生物），再结合化学技术以向酶的能量供应，使用多年生的太阳或风作为能源，以实现有效的CO2转化。或地热作为主要能源。

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《Journal of Catalysis》 |2016年第null期|共44页
作者
Aresta Michele; Dibenedetto Angela; Quaranta Eugenio;
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正文语种 eng
中图分类催化;
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CO2 properties; Coordination chemistry and reactions; CO2 conversion into chemicals; CO2 as source of carbon for energy products; Biotechnological uses of CO2;

机译：CO2性质;配位化学和反应;CO2转化为化学物质;CO2作为能源产品的碳源;CO2的生物技术用途;

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1. State of the art and perspectives in catalytic processes for CO2 conversion into chemicals and fuels: The distinctive contribution of chemical catalysis and biotechnology [J] . Aresta Michele, Dibenedetto Angela, Quaranta Eugenio Journal of Catalysis . 2016,第Null期

机译：二氧化碳转化为化学品和燃料的催化过程的最新技术和观点：化学催化和生物技术的独特贡献
2. Plasma catalysis process facilitates conversion of CO2 and CH4 into fuels and chemicals [J] . International Sugar Journal . 2017,第1427期

机译：等离子体催化过程有助于将CO2和CH4转化为燃料和化学物质
3. Gas Conversion to Liquid Fuels and Chemicals: The Methanol Route-Catalysis and Processes Development [J] . Touhami Mokrani, Mike Scurrell Catalysis Reviews. Science and Engineering . 2009,第1期

机译：气体转化为液体燃料和化学产品：甲醇路线催化和工艺开发
4. Catalytic Conversion of CO2 to Fuel and Fine Chemicals over Octahedral Molecular Sieve Manganese Oxide Supported Catalysts [C] . Boxun Hu, Steven L. Suib, Christopher Brooks American Chemical Society National Meeting Exposition . 2011

机译：CO2催化转化在八面体分子筛锰氧化物支持催化剂上的燃料和精细化学品
5. Platinum Bimetallic Nanoparticles for Catalytic Biomass Conversion into Fuels and Chemicals [D] . ?Zheng, Yiteng 2019

机译：铂双金属纳米粒子用于催化生物质转化为燃料和化学品
6. One‐Step Reforming of CO2 and CH4 into High‐Value Liquid Chemicals and Fuels at Room Temperature by Plasma‐Driven Catalysis [O] . Dr. Li Wang, Dr. Yanhui Yi, Dr. Chunfei Wu, -1

机译：通过等离子驱动催化在室温下将CO2和CH4一步转化为高价值的液体化学品和燃料
7. Status and perspectives of CO2 conversion into fuels and chemicals by catalytic, photocatalytic and electrocatalytic processes [O] . Kondratenko, E.V., Mul, Guido, Baltrusaitis, Jonas, 2013

机译：通过催化，光催化和电催化过程将二氧化碳转化为燃料和化学品的现状和前景

State of the art and perspectives in catalytic processes for CO2 conversion into chemicals and fuels: The distinctive contribution of chemical catalysis and biotechnology

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