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References (96)
-
C. Rao, A. Sood, K. Subrahmanyam, A. Govindaraj (2009)
Graphene: the new two-dimensional nanomaterial.Angewandte Chemie, 48 42
-
Yong Zhou, Q. Bao, L. Tang, Y. Zhong, K. Loh (2009)
Hydrothermal Dehydration for the “Green” Reduction of Exfoliated Graphene Oxide to Graphene and Demonstration of Tunable Optical Limiting PropertiesChemistry of Materials, 21
-
J. Burress, Srinivas Gadipelli, Jamie Ford, J. Simmons, Wei Zhou, T. Yildirim (2010)
Graphene oxide framework materials: theoretical predictions and experimental results.Angewandte Chemie, 49 47
-
Zhuxian Yang, Yongde Xia, R. Mokaya (2007)
Enhanced hydrogen storage capacity of high surface area zeolite-like carbon materials.Journal of the American Chemical Society, 129 6
-
Qiwen Chen, Luyan Zhang, Gang Chen (2012)
Facile preparation of graphene-copper nanoparticle composite by in situ chemical reduction for electrochemical sensing of carbohydrates.Analytical chemistry, 84 1
-
Huilin Guo, Xian-fei Wang, Qingyun Qian, Feng-bin Wang, X. Xia (2009)
A green approach to the synthesis of graphene nanosheets.ACS nano, 3 9
-
O. Compton, Z. An, K. Putz, Bong Hong, B. Hauser, L. Brinson, S. Nguyen (2012)
Additive-free hydrogelation of graphene oxide by ultrasonicationCarbon, 50
-
J. Xia, Fang Chen, Jinghong Li, Yuyuan Tian (2009)
Measurement of the quantum capacitance of graphene.Nature nanotechnology, 4 8
-
Xiaoyin Xiao, T. Beechem, M. Brumbach, T. Lambert, D. Davis, J. Michael, C. Washburn, Joseph Wang, S. Brozik, D. Wheeler, D. Burckel, Ronen Polsky (2012)
Lithographically defined three-dimensional graphene structures.ACS nano, 6 4
-
Li (2008)
10.1126/science.1158180Science, 320
-
Yu Ding, Ying Wang, Liang Su, M. Bellagamba, Heng Zhang, Yu Lei (2010)
Electrospun Co3O4 nanofibers for sensitive and selective glucose detection.Biosensors & bioelectronics, 26 2
-
H. Bai, Chun Li, G. Shi (2011)
Functional Composite Materials Based on Chemically Converted GrapheneAdvanced Materials, 23
-
Wenle Li, K. Lu, J. Walz (2012)
Freeze casting of porous materials: review of critical factors in microstructure evolutionInternational Materials Reviews, 57
-
Nan Liu, L. Fu, Boya Dai, Kai Yan, Xun Liu, Ruiqi Zhao, Yanfeng Zhang, Zhongfan Liu (2011)
Universal segregation growth approach to wafer-size graphene from non-noble metals.Nano letters, 11 1
-
H. Bai, Chun Li, Xiaolin Wang, G. Shi (2010)
A pH-sensitive graphene oxide composite hydrogel.Chemical communications, 46 14
-
Yiqing Sun, Qiongyu Wu, G. Shi (2011)
Graphene based new energy materialsEnergy and Environmental Science, 4
-
F. Yavari, Zongping Chen, A. Thomas, W. Ren, Hui‐Ming Cheng, N. Koratkar (2011)
High Sensitivity Gas Detection Using a Macroscopic Three-Dimensional Graphene Foam NetworkScientific Reports, 1
-
M. Stoller, Sungjin Park, Yanwu Zhu, J. An, R. Ruoff (2008)
Graphene-based ultracapacitors.Nano letters, 8 10
-
Yirong Lin, Gregory Ehlert, Colton Bukowsky, H. Sodano (2011)
Superhydrophobic functionalized graphene aerogels.ACS applied materials & interfaces, 3 7
-
P. Sutter, J. Flege, E. Sutter (2008)
Epitaxial graphene on ruthenium.Nature materials, 7 5
-
Daniel Dreyer, Sungjin Park, C. Bielawski, R. Ruoff (2010)
The chemistry of graphene oxide.Chemical Society reviews, 39 1
-
Gadipelli Srinivas, J. Burress, Jamie Ford, T. Yildirim (2011)
Porous graphene oxide frameworks: Synthesis and gas sorption propertiesJournal of Materials Chemistry, 21
-
Kaixuan Sheng, Yuxi Xu, Chun Li, G. Shi (2011)
High-performance self-assembled graphene hydrogels prepared by chemical reduction of graphene oxideElectrochimica Acta
-
B. Choi, Minho Yang, W. Hong, J. Choi, Y. Huh (2012)
3D macroporous graphene frameworks for supercapacitors with high energy and power densities.ACS nano, 6 5
-
Yuxi Xu, G. Shi (2011)
Assembly of chemically modified graphene: methods and applicationsJournal of Materials Chemistry, 21
-
Xiaoming Sun, D. Luo, Junfeng Liu, D. Evans (2010)
Monodisperse chemically modified graphene obtained by density gradient ultracentrifugal rate separation.ACS nano, 4 6
-
Jianhua Shen, Yihua Zhu, Xiaoling Yang, Chunzhong Li (2012)
Graphene quantum dots: emergent nanolights for bioimaging, sensors, catalysis and photovoltaic devices.Chemical communications, 48 31
-
K. Novoselov, A. Geim, S. Morozov, D. Jiang, M. Katsnelson, I. Grigorieva, S. Dubonos, A. Firsov (2005)
Two-dimensional gas of massless Dirac fermions in grapheneNature, 438
-
K. Novoselov, A.K. Geim, S. Morozov, D. Jiang, Y. Zhang, S. Dubonos, I. Grigorieva, A. Firsov (2004)
Electric Field Effect in Atomically Thin Carbon FilmsScience, 306
-
Yuxi Xu, H. Bai, G. Lu, Chun Li, G. Shi (2008)
Flexible graphene films via the filtration of water-soluble noncovalent functionalized graphene sheets.Journal of the American Chemical Society, 130 18
-
Hummers (1958)
10.1021/ja01539a017J. Am. Chem. Soc., 80
-
M. Worsley, P. Pauzauskie, Tammy Olson, J. Biener, J. Satcher, T. Baumann (2010)
Synthesis of graphene aerogel with high electrical conductivity.Journal of the American Chemical Society, 132 40
-
I. Moon, Junghyun Lee, R. Ruoff, Hyoyoung Lee (2010)
Reduced graphene oxide by chemical graphitization.Nature communications, 1
-
Bin Luo, Shaomin Liu, L. Zhi (2012)
Chemical approaches toward graphene-based nanomaterials and their applications in energy-related areas.Small, 8 5
-
Hongmei Sun, Linyuan Cao, Lehui Lu (2012)
Bacteria promoted hierarchical carbon materials for high-performance supercapacitorEnergy and Environmental Science, 5
-
J. Rogers, T. Someya, Yonggang Huang (2010)
Materials and Mechanics for Stretchable ElectronicsScience, 327
-
K. Kim, Yue Zhao, Houk Jang, Sang Lee, J. Kim, Kwang Kim, Jong-Hyun Ahn, P. Kim, Jae-Young Choi, B. Hong (2009)
Large-scale pattern growth of graphene films for stretchable transparent electrodesNature, 457
-
Yuxi Xu, Qiongyu Wu, Yiqing Sun, H. Bai, G. Shi (2010)
Three-dimensional self-assembly of graphene oxide and DNA into multifunctional hydrogels.ACS nano, 4 12
-
Xiangjian Wan, Yi Huang, Yongsheng Chen (2012)
Focusing on energy and optoelectronic applications: a journey for graphene and graphene oxide at large scale.Accounts of chemical research, 45 4
-
Wenrong Yang, K. Ratinac, S. Ringer, P. Thordarson, J. Gooding, F. Braet (2010)
Carbon nanomaterials in biosensors: should you use nanotubes or graphene?Angewandte Chemie, 49 12
-
B. Machado, P. Serp (2012)
Graphene-based materials for catalysisCatalysis Science & Technology, 2
-
Xiao Huang, X. Qi, F. Boey, Hua Zhang (2012)
Graphene-based composites.Chemical Society reviews, 41 2
-
Y. Hernández, V. Nicolosi, M. Lotya, F. Blighe, Zhenyu Sun, S. De, I. Mcgovern, B. Holland, Michelle Byrne, Y. Gun’ko, John Boland, Peter Niraj, G. Duesberg, Satheesh Krishnamurti, R. Goodhue, J. Hutchison, V. Scardaci, A. Ferrari, J. Coleman (2008)
High-yield production of graphene by liquid-phase exfoliation of graphite.Nature nanotechnology, 3 9
-
Li Zhang, G. Shi (2011)
Preparation of Highly Conductive Graphene Hydrogels for Fabricating Supercapacitors with High Rate CapabilityJournal of Physical Chemistry C, 115
-
Cancan Huang, H. Bai, Chun Li, G. Shi (2011)
A graphene oxide/hemoglobin composite hydrogel for enzymatic catalysis in organic solvents.Chemical communications, 47 17
-
D. Dikin, S. Stankovich, E. Zimney, R. Piner, G. Dommett, G. Evmenenko, S. Nguyen, R. Ruoff (2007)
Preparation and characterization of graphene oxide paperNature, 448
-
H. Bai, Chun Li, Xiaolin Wang, G. Shi (2011)
On the Gelation of Graphene OxideJournal of Physical Chemistry C, 115
-
Yiqing Sun, Qiongyu Wu, G. Shi (2011)
Supercapacitors based on self-assembled graphene organogel.Physical chemistry chemical physics : PCCP, 13 38
-
Xuetong Zhang, Zhuyin Sui, Bin Xu, Shufang Yue, Yun-jun Luo, W. Zhan, B. Liu (2011)
Mechanically strong and highly conductive graphene aerogel and its use as electrodes for electrochemical power sourcesJournal of Materials Chemistry, 21
-
Li Zhang, Xin Zhao, M. Stoller, Yanwu Zhu, Hengxing Ji, S. Murali, Yaping Wu, Stephen Perales, B. Clevenger, R. Ruoff (2012)
Highly conductive and porous activated reduced graphene oxide films for high-power supercapacitors.Nano letters, 12 4
-
F. Schedin, A.K. Geim, S. Morozov, E. Hill, P. Blake, M. Katsnelson, K. Novoselov (2006)
Detection of individual gas molecules adsorbed on graphene.Nature materials, 6 9
-
Yanwu Zhu, S. Murali, M. Stoller, K. Ganesh, Weiwei Cai, P. Ferreira, A. Pirkle, R. Wallace, K. Cychosz, M. Thommes, D. Su, E. Stach, R. Ruoff (2011)
Carbon-Based Supercapacitors Produced by Activation of GrapheneScience, 332
-
Shengtong Sun, Peiyi Wu (2011)
A one-step strategy for thermal- and pH-responsive graphene oxide interpenetrating polymer hydrogel networksJournal of Materials Chemistry, 21
-
M. El‐Kady, Veronica Strong, S. Dubin, R. Kaner (2012)
Laser Scribing of High-Performance and Flexible Graphene-Based Electrochemical CapacitorsScience, 335
-
Abhishek Sahu, W. Choi, G. Tae (2012)
A stimuli-sensitive injectable graphene oxide composite hydrogel.Chemical communications, 48 47
-
Veronica Strong, S. Dubin, M. El‐Kady, Andrew Lech, Yue Wang, B. Weiller, R. Kaner (2012)
Patterning and electronic tuning of laser scribed graphene for flexible all-carbon devices.ACS nano, 6 2
-
G. Srinivas, Yanwu Zhu, R. Piner, N. Skipper, Mark Ellerby, R. Ruoff (2010)
Synthesis of graphene-like nanosheets and their hydrogen adsorption capacityCarbon, 48
-
Xiaowei Yang, Junwu Zhu, Ling Qiu, Dan Li (2011)
Bioinspired Effective Prevention of Restacking in Multilayered Graphene Films: Towards the Next Generation of High‐Performance SupercapacitorsAdvanced Materials, 23
-
S. Pei, Jinping Zhao, Jinhong Du, W. Ren, Hui‐Ming Cheng (2010)
Direct reduction of graphene oxide films into highly conductive and flexible graphene films by hydrohalic acidsCarbon, 48
-
L. Estevez, A. Kelarakis, Q. Gong, E. Da'as, E. Giannelis (2011)
Multifunctional graphene/platinum/Nafion hybrids via ice templating.Journal of the American Chemical Society, 133 16
-
Sun Lee, Hyun Kim, J. Hwang, W. Lee, Joon Kwon, C. Bielawski, R. Ruoff, S. Kim (2010)
Three-dimensional self-assembly of graphene oxide platelets into mechanically flexible macroporous carbon films.Angewandte Chemie, 49 52
-
M. Winter, R. Brodd (2004)
What are batteries, fuel cells, and supercapacitors?Chemical reviews, 104 10
-
Zhiqiang Niu, Jun Chen, H. Hng, Jan Ma, Xiaodong Chen (2012)
A Leavening Strategy to Prepare Reduced Graphene Oxide FoamsAdvanced Materials, 24
-
Zhihong Tang, Shuling Shen, Zhu Jing, Xun Wang (2010)
Noble-metal-promoted three-dimensional macroassembly of single-layered graphene oxide.Angewandte Chemie, 49 27
-
Dan Li, M. Müller, S. Gilje, R. Kaner, G. Wallace (2008)
Processable aqueous dispersions of graphene nanosheets.Nature nanotechnology, 3 2
-
Sheng-Zhen Zu, Bao-Hang Han (2009)
Aqueous Dispersion of Graphene Sheets Stabilized by Pluronic Copolymers: Formation of Supramolecular HydrogelJournal of Physical Chemistry C, 113
-
M. Worsley, Tammy Olson, Jonathan Lee, T. Willey, M. Nielsen, Sarah Roberts, P. Pauzauskie, J. Biener, J. Satcher, T. Baumann (2011)
High Surface Area, sp(2)-Cross-Linked Three-Dimensional Graphene Monoliths.The journal of physical chemistry letters, 2 8
-
X. Jia, J. Campos-Delgado, M. Terrones, V. Meunier, M. Dresselhaus (2011)
Graphene edges: a review of their fabrication and characterization.Nanoscale, 3 1
-
Jemma Vickery, A. Patil, S. Mann (2009)
Fabrication of Graphene–Polymer Nanocomposites With Higher‐Order Three‐Dimensional ArchitecturesAdvanced Materials, 21
-
Anupama Ghosh, K. Subrahmanyam, K. Krishna, S. Datta, A. Govindaraj, S. Pati, C. Rao (2008)
Uptake of H2 and CO2 by GrapheneJournal of Physical Chemistry C, 112
-
J. Bai, Yu Huang (2010)
Fabrication and electrical properties of graphene nanoribbons, 70
-
Kaixuan Sheng, Yiqing Sun, Chun Li, Wenjing Yuan, G. Shi (2012)
Ultrahigh-rate supercapacitors based on eletrochemically reduced graphene oxide for ac line-filteringScientific Reports, 2
-
H. Pham, V. Pham, T. Cuong, Thuy-Duong Nguyen-Phan, J. Chung, E. Shin, Sunwook Kim (2011)
Synthesis of the chemically converted graphene xerogel with superior electrical conductivity.Chemical communications, 47 34
-
Wufeng Chen, Sirong Li, Chun-hua Chen, Lifeng Yan (2011)
Self‐Assembly and Embedding of Nanoparticles by In Situ Reduced Graphene for Preparation of a 3D Graphene/Nanoparticle AerogelAdvanced Materials, 23
-
Chun Li, H. Bai, G. Shi (2009)
Conducting polymer nanomaterials: electrosynthesis and applications.Chemical Society reviews, 38 8
-
L. Biró, P. Nemes-Incze, P. Lambin (2012)
Graphene: nanoscale processing and recent applications.Nanoscale, 4 6
-
S. Korkut, J. Roy-Mayhew, D. Dabbs, D. Milius, I. Aksay (2011)
High surface area tapes produced with functionalized graphene.ACS nano, 5 6
-
I. Meric, Melinda Han, A. Young, B. Ozyilmaz, P. Kim, K. Shepard (2008)
Current saturation in zero-bandgap, top-gated graphene field-effect transistors.Nature nanotechnology, 3 11
-
Zongping Chen, W. Ren, Libo Gao, Bilu Liu, S. Pei, Hui‐Ming Cheng (2011)
Three-dimensional flexible and conductive interconnected graphene networks grown by chemical vapour deposition.Nature materials, 10 6
-
S. Dubin, S. Gilje, Kan Wang, V. Tung, K. Cha, A. Hall, J. Farrar, R. Varshneya, Yang Yang, R. Kaner (2010)
A one-step, solvothermal reduction method for producing reduced graphene oxide dispersions in organic solvents.ACS nano, 4 7
-
Maryam Jahan, Q. Bao, K. Loh (2012)
Electrocatalytically active graphene-porphyrin MOF composite for oxygen reduction reaction.Journal of the American Chemical Society, 134 15
-
Sungjin Park, R. Ruoff (2009)
Chemical methods for the production of graphenes.Nature nanotechnology, 4 4
-
Jikang Yuan, Xiaogang Liu, O. Akbulut, Junqing Hu, S. Suib, J. Kong, F. Stellacci (2008)
Superwetting nanowire membranes for selective absorption.Nature nanotechnology, 3 6
-
Huai-Ping Cong, Xiao-Chen Ren, Ping Wang, Shuhong Yu (2012)
Macroscopic multifunctional graphene-based hydrogels and aerogels by a metal ion induced self-assembly process.ACS nano, 6 3
-
Wufeng Chen, Lifeng Yan (2011)
In situ self-assembly of mild chemical reduction graphene for three-dimensional architectures.Nanoscale, 3 8
-
Michael McAllister, Je-Luen Li, D. Adamson, H. Schniepp, Ahmed Abdala, Jun Liu, M. Herrera-Alonso, D. Milius, R. Car, ‡. Prud‘homme, I. Aksay (2007)
Single Sheet Functionalized Graphene by Oxidation and Thermal Expansion of GraphiteChemistry of Materials, 19
-
Xiluan Wang, H. Bai, G. Shi (2011)
Size fractionation of graphene oxide sheets by pH-assisted selective sedimentation.Journal of the American Chemical Society, 133 16
-
L. Miyagi, P. Kaercher, Kanani Lee, H. Wenk (2010)
Graphene Double-Layer Capacitor with ac Line-Filtering PerformanceScience, 329
-
Y. Shimizu, M. Egashira (1999)
Basic Aspects and Challenges of Semiconductor Gas SensorsMRS Bulletin, 24
-
Yuxi Xu, Kaixuan Sheng, Chun Li, G. Shi (2010)
Self-assembled graphene hydrogel via a one-step hydrothermal process.ACS nano, 4 7
-
J. Miasik, A. Hooper, B. Tofield (1986)
Conducting polymer gas sensorsJournal of the Chemical Society, Faraday Transactions, 82
-
Shoujun Zhu, Shijia Tang, Junhu Zhang, Bai Yang (2012)
Control the size and surface chemistry of graphene for the rising fluorescent materials.Chemical communications, 48 38
-
Fei Liu, T. Seo (2010)
A Controllable Self‐Assembly Method for Large‐Scale Synthesis of Graphene Sponges and Free‐Standing Graphene FilmsAdvanced Functional Materials, 20
-
J. Kong, N. Franklin, Chongwu Zhou, M. Chapline, S. Peng, Kyeongjae Cho, H. Dai (2000)
Nanotube molecular wires as chemical sensorsScience, 287 5453
-
Xiaochen Dong, Hang Xu, Xuewan Wang, Yingying Huang, M. Chan-Park, Hua Zhang, Lianhui Wang, Wei Huang, Peng Chen (2012)
3D graphene-cobalt oxide electrode for high-performance supercapacitor and enzymeless glucose detection.ACS nano, 6 4
-
M. Allen, V. Tung, R. Kaner (2010)
Honeycomb carbon: a review of graphene.Chemical reviews, 110 1
- Publisher
- Royal Society of Chemistry
- Copyright
- This journal is © The Royal Society of Chemistry
- ISSN
- 2040-3364
- eISSN
- 2040-3372
- DOI
- 10.1039/c2nr31467c
- pmid
- 22895734
- Publisher site
- See Article on Publisher Site
Abstract
Graphene has been widely explored for applications in electronics, sensors, actuators, catalysis and bio- or energy related systems. For these purposes, graphene materials usually have to be fabricated or assembled into desired micro-/nano-architectures for tuning and/or controlling their electrical, optical, mechanical, chemical or electrochemical properties. In this feature article, we review recent achievements in the studies of three-dimensional (3D) graphene architectures. The methodology for preparing these 3D graphene micro-/nano-architectures and their potential applications have been summarized.
Journal
Nanoscale – Royal Society of Chemistry
Published: Aug 23, 2012