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By Yun Hang Hu

content material: CONTENTS; PREFACE; 1. SYNTHESIS AND CHARACTERIZATION OF FERRITE fabrics FOR THERMOCHEMICAL CO2 SPLITTING utilizing targeted solar power; ANDREA AMBROSINI, ERIC N. COKER, MARK A. RODRIGUEZ, STEPHANIE LIVERS, LINDSEY R. EVANS, JAMES E. MILLER, AND ELLEN B. STECHEL; 2. PHOTOCATALYTIC relief OF CO2 utilizing H2 AS REDUCTANT OVER good BASE PHOTOCATALYSTS; KENTARO TERAMURA AND TSUNEHIRO TANAKA; three. CO2 SPLITTING through THE sun THERMOCHEMICAL CYCLE according to ZN/ZNO REDOX REACTIONS; PETER G. LOUTZENHISER, ANTON MEIER, DANIEL GSTOEHL, AND ALDO STEINFELD; four. HYDROTHERMAL CONVERSION OF CO2 INTO VALUE-ADDED items: a possible know-how for making improvements to international CARBON CYCLE; FANGMING JIN, ZHIBAO HUO, XU ZENG, AND HEIJI ENOMOTO; five. ELECTROCATALYTIC relief OF CO2 TO SMALL natural MOLECULE FUELS ON steel CATALYSTS; WENZHEN LI; 6. CO2 CHEMISTRY AT NANKAI crew: CATALYTIC CONVERSION OF CO2 INTO VALUE-ADDED chemical compounds; LIANG-NIAN HE, ZHEN-ZHEN YANG, AN-HUA LIU, AND JIAN GAO; 7. OXIDATIVE DEHYDROGENATION OF ETHANE TO AND

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Chem. Mater. 2010, 22, 851–859. ; ACS Symposium Series; American Chemical Society: Washington, DC, 2010. jp To reduce the amount of CO2 being generated, processes for recirculating carbon are needed, especially those that do not require excessive energy and have high efficiencies. , the conversion of dissolved CO2 into hydrocarbons abiotically in the Earth’s crust, and have shown excellent potential for the rapid conversion of a wide variety of biomass into value-added products. Thus, if the geologic formation of fossil fuels in nature could be combined with the hydrothermal methods being studied for material conversions, an efficient scheme could be realized to recycle carbon and produce chemicals.

2000, 2, 5302–5307. ; Kohno, Y. Catal. Surv. Jpn. 2000, 4, 107–114. ; Yoshida, S. J. Photochem. Photobiol. A 1999, 26, 117–123. ; Funabiki, T. J. Mol. Catal. A: Chem. 2001, 175, 173–178. ; Yoshida, S. Phys. Chem. Chem. Phys. 2001, 3, 1108–1113. ; Funabiki, T. J. Phys. Chem. B 2004, 108, 346–354. ; Tanaka, T. Chem. Phys. Lett. 2008, 467, 191–194. ; ACS Symposium Series; American Chemical Society: Washington, DC, 2010. ch003 Chapter 3 CO2 Splitting via the Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions Peter G.

Yoshida, S. Phys. Chem. Chem. Phys. 2001, 3, 1108–1113. ; Funabiki, T. J. Phys. Chem. B 2004, 108, 346–354. ; Tanaka, T. Chem. Phys. Lett. 2008, 467, 191–194. ; ACS Symposium Series; American Chemical Society: Washington, DC, 2010. ch003 Chapter 3 CO2 Splitting via the Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions Peter G. ch A two-step thermochemical cycle for splitting CO2 and processing into solar fuels via ZnO/Zn redox reactions is considered. The first, solar step is the endothermic dissociation of ZnO to Zn and O2.

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