Plasma‐Enhanced Chemical‐Vapor‐Deposition Synthesis of Photoredox‐Active Nitrogen‐Doped Carbon from NH3 and CH4 Gases

Earth's primordial atmosphere was rich in ammonia and methane. To understand the evolution of the atmosphere, these two gases were used to make photoredox‐active nitrogen‐doped carbon (NDC). Photocatalysts such as NDC might play an important role in the development of geological and atmospheric...

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Published in	Angewandte Chemie International Edition Vol. 62; no. 33; pp. e202307236 - n/a
Main Authors	Wang, Yan, Fang, Yuanxing, Wang, Yankun, Wu, Haisu, Anpo, Masakazu, Yu, Jimmy C., Wang, Xinchen
Format	Journal Article
Language	English
Published	Weinheim Wiley Subscription Services, Inc 14.08.2023
Edition	International ed. in English
Subjects	Active Sites Amines Ammonia Atmosphere Atmospheric chemistry Carbon Chemical evolution Chemical synthesis Chemical Vapor Deposition Gases Hydrogen peroxide Imines Infrared Spectroscopy Methane Nitrogen Nitrogen-Doped Carbon Photocatalysts Photochemical reactions Photoreduction
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Abstract	Earth's primordial atmosphere was rich in ammonia and methane. To understand the evolution of the atmosphere, these two gases were used to make photoredox‐active nitrogen‐doped carbon (NDC). Photocatalysts such as NDC might play an important role in the development of geological and atmospheric chemistry during the Archean era. This study describes the synthesis of NDC directly from NH3 and CH4 gases. The photocatalyst product can be used to selectively synthesize imines by photo‐oxidization of amines, producing H2O2 simultaneously in the photoreduction reaction. Our findings shed light on the chemical evolution of the Earth. NH3 and CH4 gases were applied as precursors to synthesize nitrogen‐doped carbon (NDC) photocatalysts. Without any co‐catalysts, the NDC was demonstrated to drive photoredox reactions, and active sites on the NDC have been investigated. Because in the Archean era, the atmosphere of Earth was filled with NH3 and CH4 gases, this study is important to understand the evolution of biomolecules in the Earth by photochemistry.
AbstractList	Earth's primordial atmosphere was rich in ammonia and methane. To understand the evolution of the atmosphere, these two gases were used to make photoredox‐active nitrogen‐doped carbon (NDC). Photocatalysts such as NDC might play an important role in the development of geological and atmospheric chemistry during the Archean era. This study describes the synthesis of NDC directly from NH3 and CH4 gases. The photocatalyst product can be used to selectively synthesize imines by photo‐oxidization of amines, producing H2O2 simultaneously in the photoreduction reaction. Our findings shed light on the chemical evolution of the Earth. Earth's primordial atmosphere was rich in ammonia and methane. To understand the evolution of the atmosphere, these two gases were used to make photoredox‐active nitrogen‐doped carbon (NDC). Photocatalysts such as NDC might play an important role in the development of geological and atmospheric chemistry during the Archean era. This study describes the synthesis of NDC directly from NH3 and CH4 gases. The photocatalyst product can be used to selectively synthesize imines by photo‐oxidization of amines, producing H2O2 simultaneously in the photoreduction reaction. Our findings shed light on the chemical evolution of the Earth. NH3 and CH4 gases were applied as precursors to synthesize nitrogen‐doped carbon (NDC) photocatalysts. Without any co‐catalysts, the NDC was demonstrated to drive photoredox reactions, and active sites on the NDC have been investigated. Because in the Archean era, the atmosphere of Earth was filled with NH3 and CH4 gases, this study is important to understand the evolution of biomolecules in the Earth by photochemistry.
Author	Yu, Jimmy C. Fang, Yuanxing Wang, Yankun Anpo, Masakazu Wang, Xinchen Wu, Haisu Wang, Yan
Author_xml	– sequence: 1 givenname: Yan surname: Wang fullname: Wang, Yan organization: Fuzhou University – sequence: 2 givenname: Yuanxing surname: Fang fullname: Fang, Yuanxing email: yxfang@fzu.edu.cn organization: Fuzhou University – sequence: 3 givenname: Yankun surname: Wang fullname: Wang, Yankun organization: Fuzhou University – sequence: 4 givenname: Haisu surname: Wu fullname: Wu, Haisu organization: Fuzhou University – sequence: 5 givenname: Masakazu surname: Anpo fullname: Anpo, Masakazu organization: Fuzhou University – sequence: 6 givenname: Jimmy C. surname: Yu fullname: Yu, Jimmy C. organization: The Chinese University of Hong Kong – sequence: 7 givenname: Xinchen orcidid: 0000-0002-2490-3568 surname: Wang fullname: Wang, Xinchen email: xcwang@fzu.edu.cn organization: Fujian Science & Technology Innovation Laboratory for Chemical Engineering of China
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SubjectTerms	Active Sites Amines Ammonia Atmosphere Atmospheric chemistry Carbon Chemical evolution Chemical synthesis Chemical Vapor Deposition Gases Hydrogen peroxide Imines Infrared Spectroscopy Methane Nitrogen Nitrogen-Doped Carbon Photocatalysts Photochemical reactions Photoreduction
Title	Plasma‐Enhanced Chemical‐Vapor‐Deposition Synthesis of Photoredox‐Active Nitrogen‐Doped Carbon from NH3 and CH4 Gases
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