Functionalization of chemically derived graphene for improving its electrocapacitive energy storage properties

Chemically derived graphene holds great promise as an electrode material for electrochemical energy storage owing to its unique physical and chemical properties. Recent years have witnessed tremendous research breakthroughs in the field of graphene-based materials for electrochemical capacitors. Thi...

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Published in	Energy & environmental science Vol. 9; no. 6; pp. 1891 - 193
Main Authors	Lei, Zhibin, Zhang, Jintao, Zhang, Li Li, Kumar, Nanjundan Ashok, Zhao, X. S
Format	Journal Article
Language	English
Published	01.06.2016
Subjects	Capacitance Capacitors Chemical properties Derivatives Electrode materials Energy storage Graphene Supercapacitors
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Abstract	Chemically derived graphene holds great promise as an electrode material for electrochemical energy storage owing to its unique physical and chemical properties. Recent years have witnessed tremendous research breakthroughs in the field of graphene-based materials for electrochemical capacitors. This article presents a review of the latest developments in the functionalization of chemically derived graphene for improving its electrocapacitive properties. Beginning with a brief description of supercapacitors, graphene, and chemically derived graphene, we discuss the preparation, electrocapacitive properties, and drawbacks of chemically derived graphene and its derivatives, followed by a discussion on how to functionalize chemically derived graphene for improving its double-layer capacitance and pseudocapacitance. Emphasis is made on comparing and highlighting demonstrated approaches to functionalizing chemically derived graphene. Future research towards developing advanced electrochemical capacitors, perspectives and challenges are outlined. This review summarizes the latest developments in the functionalization of chemically derived graphene for improving its electrocapacitive performance.
AbstractList	Chemically derived graphene holds great promise as an electrode material for electrochemical energy storage owing to its unique physical and chemical properties. Recent years have witnessed tremendous research breakthroughs in the field of graphene-based materials for electrochemical capacitors. This article presents a review of the latest developments in the functionalization of chemically derived graphene for improving its electrocapacitive properties. Beginning with a brief description of supercapacitors, graphene, and chemically derived graphene, we discuss the preparation, electrocapacitive properties, and drawbacks of chemically derived graphene and its derivatives, followed by a discussion on how to functionalize chemically derived graphene for improving its double-layer capacitance and pseudocapacitance. Emphasis is made on comparing and highlighting demonstrated approaches to functionalizing chemically derived graphene. Future research towards developing advanced electrochemical capacitors, perspectives and challenges are outlined. Chemically derived graphene holds great promise as an electrode material for electrochemical energy storage owing to its unique physical and chemical properties. Recent years have witnessed tremendous research breakthroughs in the field of graphene-based materials for electrochemical capacitors. This article presents a review of the latest developments in the functionalization of chemically derived graphene for improving its electrocapacitive properties. Beginning with a brief description of supercapacitors, graphene, and chemically derived graphene, we discuss the preparation, electrocapacitive properties, and drawbacks of chemically derived graphene and its derivatives, followed by a discussion on how to functionalize chemically derived graphene for improving its double-layer capacitance and pseudocapacitance. Emphasis is made on comparing and highlighting demonstrated approaches to functionalizing chemically derived graphene. Future research towards developing advanced electrochemical capacitors, perspectives and challenges are outlined. This review summarizes the latest developments in the functionalization of chemically derived graphene for improving its electrocapacitive performance.
Author	Lei, Zhibin Zhang, Jintao Zhao, X. S Zhang, Li Li Kumar, Nanjundan Ashok
AuthorAffiliation	School of Chemical Engineering The University of Queensland Ministry of Education Institute of Chemical and Engineering Sciences Shaanxi Normal University Ministry of Education, and School of Materials Science and Engineering Shandong University Key Laboratory of Colloid and Interface Chemistry School of Chemistry and Chemical Engineering Key Laboratory of Applied Surface and Colloid Chemistry
AuthorAffiliation_xml	– sequence: 0 name: The University of Queensland – sequence: 0 name: Shandong University – sequence: 0 name: Key Laboratory of Applied Surface and Colloid Chemistry – sequence: 0 name: School of Chemistry and Chemical Engineering – sequence: 0 name: Ministry of Education – sequence: 0 name: Institute of Chemical and Engineering Sciences – sequence: 0 name: School of Chemical Engineering – sequence: 0 name: Shaanxi Normal University – sequence: 0 name: Key Laboratory of Colloid and Interface Chemistry – sequence: 0 name: Ministry of Education, and School of Materials Science and Engineering
Author_xml	– sequence: 1 givenname: Zhibin surname: Lei fullname: Lei, Zhibin – sequence: 2 givenname: Jintao surname: Zhang fullname: Zhang, Jintao – sequence: 3 givenname: Li Li surname: Zhang fullname: Zhang, Li Li – sequence: 4 givenname: Nanjundan Ashok surname: Kumar fullname: Kumar, Nanjundan Ashok – sequence: 5 givenname: X. S surname: Zhao fullname: Zhao, X. S
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Notes	Dr Lili Zhang received her BEng and PhD from Chemical and Biomolecular Engineering, National University of Singapore (NUS) in 2004 and 2011, respectively. She worked as a process engineer in Micron between 2004 and 2006, and a research engineer from 2010 to 2011 at NUS. Then she continued her research in Professor Ruoff's group at The University of Texas at Austin from 2011 to 2012 as a research fellow. Now Dr Zhang is a research scientist in the Institute of Chemical and Engineering Sciences in Singapore. Dr Zhang's research interest is in advanced materials for energy storage and conversion, fundamental materials chemistry and physics, electrochemistry, electrocatalysis, and synthesis and study of novel catalytic materials. methanol to olefins, and CO 2 Zhibin Lei received his PhD in Physical Chemistry from the University of Science and Technology of China (USTC) in 2002. He then worked as a postdoctoral fellow with Prof. Can Li at the Dalian Institute of Chemical Physics (DICP), Chinese Academy of Sciences. He was promoted as a full professor in 2007, and then worked as a senior research fellow with Prof Zhao at the Department of Chemical & Biomolecular Engineering, National University of Singapore in 2009. He is now a professor in the School of Materials Science and Engineering, Shaanxi Normal University. His current research interests focus on the advanced carbon-based materials for electrochemical energy storage and conversion. Jintao Zhang received his PhD from the National University of Singapore (NUS) in 2012 and was a postdoctoral fellow at Nanyang Technological University (NTU) and Case Western Reserve University (CASE) (2012-2015). He is currently a professor in the School of Chemistry and Chemical Engineering, Shandong University (SDU). His research focuses on the rational design and synthesis of novel functional materials for electrocatalysis, energy storage and conversion. storage), and membrane separation of bio-oils. X. S. Zhao received his PhD in Chemical Engineering from The University of Queensland (UQ) in 1999. He then worked as a UQ Postdoctoral Research Fellow at the same university. He joined the Department of Chemical and Biomolecular Engineering, National University of Singapore, as an Assistant Professor in 2001, and then he was promoted to Associate Professor in 2006. In 2010, he was awarded an Australian Research Council (ARC) Future Fellowship, and appointed as a full professor by UQ. He took up the appointment and joined the School of Chemical Engineering of UQ to lead a research program of Clean Energy and Water Research. Professor Zhao's research focuses on porous materials for emerging applications. His current research projects include porous carbon and graphene electrodes for supercapacitors and lithium-ion batteries, the charge storage mechanism and transport behavior in nanoporous carbon electrodes (both experimentally and computationally), novel photocatalysts for detoxification and disinfection, colloidal photonic crystals and macroporous materials, mesoporous materials for C1 utilization (methane reforming with CO Ashok Kumar Nanjundan is a UQ postdoctoral fellow at the University of Queensland. After spending 3 years at Technical University in Dresden, Germany, he moved to South Korea where he received his PhD from Pukyong National University in 2010. He then joined the Ulsan National Institute of Science and Technology (UNIST) as a postdoctoral fellow. In 2011 he was awarded the Marie Curie fellowship-Eurotalents at the French Atomic Energy Commission in Grenoble, France (Commissariat a l'energie atomique). He later moved to Trinity College Dublin as a research fellow. In 2012, he was awarded the JSPS postdoctoral fellowship at Kumamoto University in Japan. Ashok's research focuses on the synthesis of carbon based nanostructured materials and polymers, in particular, the implementation of such materials in emerging energy applications. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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PublicationTitle	Energy & environmental science
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Snippet	Chemically derived graphene holds great promise as an electrode material for electrochemical energy storage owing to its unique physical and chemical...
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SubjectTerms	Capacitance Capacitors Chemical properties Derivatives Electrode materials Energy storage Graphene Supercapacitors
Title	Functionalization of chemically derived graphene for improving its electrocapacitive energy storage properties
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