Na~+-gated water-conducting nanochannels for boosting CO_2 conversion to liquid fuels

Li Huazheng; Qiu Chenglong; Ren Shoujie; Dong Qiaobei; Zhang Shenxiang; Zhou Fanglei; Liang Xinhua; Wang Jianguo; Li Shiguang; Yu Miao

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Na~+-gated water-conducting nanochannels for boosting CO_2 conversion to liquid fuels

机译：Na〜+门控导水纳米通道，用于促进CO_2转化为液体燃料

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Robust, gas-impeding water-conduction nanochannels that can sieve water from small gas molecules such as hydrogen (H-2), particularly at high temperature and pressure, are desirable for boosting many important reactions severely restricted by water (the major by-product) both thermodynamically and kinetically. Identifying and constructing such nanochannels into large-area separation membranes without introducing extra defects is challenging. We found that sodium ion (Na+)-gated water-conduction nanochannels could be created by assembling NaA zeolite crystals into a continuous, defect-free separation membrane through a rationally designed method. Highly efficient in situ water removal through water-conduction nanochannels led to a substantial increase in carbon dioxide (CO2) conversion and methanol yield in CO2 hydrogenation for methanol production.

机译：鲁棒的，阻气性的水传导纳米通道能够从氢气（H-2）之类的小气体分子中滤出水，特别是在高温和高压下，这对于增强许多受到水严格限制的重要反应是非常必要的（主要副产物）热力学和动力学。在不引入额外缺陷的情况下，将这种纳米通道鉴定并构建到大面积分离膜中具有挑战性。我们发现，通过合理设计的方法将NaA沸石晶体组装到连续，无缺陷的分离膜中，可以创建钠离子（Na +）门控的水传导纳米通道。通过导水纳米通道的高效原位除水技术导致二氧化碳（CO2）转化率和甲醇生产中CO2加氢中甲醇产率的大幅提高。

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《Science》 |2020年第6478期|667-671|共5页
作者
Li Huazheng; Qiu Chenglong; Ren Shoujie; Dong Qiaobei; Zhang Shenxiang; Zhou Fanglei; Liang Xinhua; Wang Jianguo; Li Shiguang; Yu Miao;
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作者单位

Rensselaer Polytech Inst Dept Chem & Biol Engn Troy NY 12180 USA;

Zhejiang Univ Technol Inst Ind Catalysis Coll Chem Engn State Key Lab Breeding Base Green Chem Synth Tech Hangzhou 310032 Peoples R China;

Rensselaer Polytech Inst Dept Chem & Biol Engn Troy NY 12180 USA|Missouri Univ Sci & Technol Dept Chem & Biochem Engn Rolla MO 65409 USA;

Missouri Univ Sci & Technol Dept Chem & Biochem Engn Rolla MO 65409 USA;

Gas Technol Inst Des Plaines IL 60018 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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1. JAPAN-GTL PROCESS PORTENDS A REVOLUTION IN LIQUID FUEL SECTOR: Gas-to-liquids conversion method does not require oxygen feed, CO_2 removal [J] . Roberto Chellini CompressorTech Two: Dedicated to Gas Compression Products and Applications . 2012,第5期

机译：JAPAN-GTL工艺预示着液体燃料领域的一场革命：气液转化方法不需要氧气进料，去除CO_2
2. Electrochemical oxidation and advanced oxidation processes using a 3D hexagonal CO_3O_4 array anode for 4-nitrophenol decomposition coupled with simultaneous CO_2 conversion to liquid fuels via a flower-like CuO cathode [J] . Zou Jian-Ping, Chen Xing, Liu Shan-Shan, Water Research . 2019,第MARa1期

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3. Selective CO2 Conversion into Fuels on Nanochannels [J] . Delgado Dario Chemphyschem: A European journal of chemical physics and physical chemistry . 2019,第15期

机译：选择性二氧化碳转换为纳米纳米的燃料
4. THE HIGHLY EFFICIENT INTEGRATED PLASMA FUEL CELL (IPFC) ENERGY CYCLE FOR CONVERSION OF FOSSIL AND BIOMASS FUELS TO ELECTRIC POWER GENERATION AND HYDROGEN AND LIQUID TRANSPORTATION FUEL PRODUCTION WITH REDUCED OR ZERO CO_2 EMISSION [C] . Meyer Steinberg International Conference on Greenhouse Gas Control Technologies . 2005

机译：高效的集成等离子体燃料电池（IPFC）能量循环，用于将化石和生物质燃料转化为发电和氢气和液体运输燃料生产，减少或零CO_2排放
5. Conversion of Biomass to Liquid Hydrocarbon Fuels via Anaerobic Digestion: A Feasibility Study [D] . Naqi, Ahmad. 2018

机译：通过厌氧消化将生物质转化为液态烃燃料：可行性研究
6. Direct conversion of CO and H2O into liquid fuels under mild conditions [O] . Yao Xu, Jing Li, Wenjing Li, -1

机译：在温和条件下将CO和H2O直接转化为液体燃料
7. Organic reactions for the electrochemical and photochemical production of chemical fuels from CO_2 – The reduction chemistry of carboxylic acids and derivatives as bent CO_2 surrogates [O] . Luca Oana R., Fenwick Aidan Q. 2015

机译：由CO_2电化学和光化学生产化学燃料的有机反应–弯曲的CO_2替代物的羧酸及其衍生物的还原化学
8. Conversion of Cellulosic Wastes to Liquid Hydrocarbon Fuels: Vol. 4, Slurry Phase Synthesis of Liquid Hydrocarbon Fuels from Biomass Pyrolysis Gas Using Iron Catalysts: Final Report [R] . Kuester, J. L. 1986

机译：纤维素废物转化为液态烃燃料：Vol。 4，利用铁催化剂从生物质裂解气体中分离合成液态烃燃料：最终报告

Na~+-gated water-conducting nanochannels for boosting CO_2 conversion to liquid fuels

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