Scalable enhancement of graphene oxide properties by thermally driven phase transformation.

[1]  X. Duan,et al.  A low-temperature method to produce highly reduced graphene oxide , 2013, Nature Communications.

[2]  H. Xiang,et al.  Overcoming the phase inhomogeneity in chemically functionalized graphene: the case of graphene oxides. , 2013, Physical review letters.

[3]  J. Grossman,et al.  The impact of functionalization on the stability, work function, and photoluminescence of reduced graphene oxide. , 2013, ACS nano.

[4]  M. Hersam,et al.  Atomic covalent functionalization of graphene. , 2013, Accounts of chemical research.

[5]  S. Ciraci,et al.  Domain formation on oxidized graphene , 2012, 1210.1883.

[6]  D. Dikin,et al.  Epoxide Speciation and Functional Group Distribution in Graphene Oxide Paper‐Like Materials , 2012 .

[7]  D. Passerone,et al.  Two-dimensional nucleation and growth mechanism explaining graphene oxide structures , 2012 .

[8]  Qiang Zhang,et al.  Structural evolution during annealing of thermally reduced graphene nanosheets for application in supercapacitors , 2012 .

[9]  G. Eda,et al.  Tunable photoluminescence from graphene oxide. , 2012, Angewandte Chemie.

[10]  E. Riedo,et al.  Room-temperature metastability of multilayer graphene oxide films. , 2012, Nature materials.

[11]  M. Hersam,et al.  Chemically homogeneous and thermally reversible oxidation of epitaxial graphene. , 2012, Nature chemistry.

[12]  D. Solenov,et al.  Adsorbate transport on graphene by electromigration. , 2012, Physical review letters.

[13]  Y. Chabal,et al.  Probing the catalytic activity of porous graphene oxide and the origin of this behaviour , 2012, Nature Communications.

[14]  M. Weinert,et al.  Evidence of nanocrystalline semiconducting graphene monoxide during thermal reduction of graphene oxide in vacuum. , 2011, ACS nano.

[15]  Seok‐In Na,et al.  Solution‐Processable Reduced Graphene Oxide as a Novel Alternative to PEDOT:PSS Hole Transport Layers for Highly Efficient and Stable Polymer Solar Cells , 2011, Advanced materials.

[16]  Gaoping Cao,et al.  What is the choice for supercapacitors: graphene or graphene oxide? , 2011 .

[17]  E. Bar-Ziv,et al.  Gate-voltage control of oxygen diffusion on graphene. , 2011, Physical review letters.

[18]  R. Ruoff,et al.  Nanostructured reduced graphene oxide/Fe2O3 composite as a high-performance anode material for lithium ion batteries. , 2011, ACS nano.

[19]  R. Young,et al.  The real graphene oxide revealed: stripping the oxidative debris from the graphene-like sheets. , 2011, Angewandte Chemie.

[20]  C. Macosko,et al.  Aqueous only route toward graphene from graphite oxide. , 2011, ACS nano.

[21]  P. Kamat Graphene-Based Nanoassemblies for Energy Conversion , 2011 .

[22]  R. Ruoff,et al.  Graphene-based polymer nanocomposites , 2011 .

[23]  J. Pyun Graphene oxide as catalyst: application of carbon materials beyond nanotechnology. , 2011, Angewandte Chemie.

[24]  G. Eda,et al.  Graphene oxide as a chemically tunable platform for optical applications. , 2010, Nature chemistry.

[25]  Jijun Zhao,et al.  Stability of graphene oxide phases from first-principles calculations , 2010 .

[26]  R. Ruoff,et al.  Reduced graphene oxide by chemical graphitization. , 2010, Nature communications.

[27]  Vivek B Shenoy,et al.  Structural evolution during the reduction of chemically derived graphene oxide. , 2010, Nature chemistry.

[28]  Seth R. Marder,et al.  Nanoscale Tunable Reduction of Graphene Oxide for Graphene Electronics , 2010, Science.

[29]  G. Eda,et al.  Chemically Derived Graphene Oxide: Towards Large‐Area Thin‐Film Electronics and Optoelectronics , 2010, Advanced materials.

[30]  Nan Pan,et al.  Dramatically enhanced photoresponse of reduced graphene oxide with linker-free anchored CdSe nanoparticles. , 2010, ACS nano.

[31]  Deep Jariwala,et al.  Atomic layers of hybridized boron nitride and graphene domains. , 2010, Nature materials.

[32]  R. Ruoff,et al.  Hydrogen bond networks in graphene oxide composite paper: structure and mechanical properties. , 2010, ACS nano.

[33]  Prashant V. Kamat,et al.  Graphene-Based Nanoarchitectures. Anchoring Semiconductor and Metal Nanoparticles on a Two-Dimensional Carbon Support , 2010 .

[34]  G. Eda,et al.  Blue Photoluminescence from Chemically Derived Graphene Oxide , 2009, Advanced materials.

[35]  P. Ajayan,et al.  New insights into the structure and reduction of graphite oxide. , 2009, Nature chemistry.

[36]  Guoliang Zhang,et al.  Deoxygenation of Exfoliated Graphite Oxide under Alkaline Conditions: A Green Route to Graphene Preparation , 2008 .

[37]  D. Dikin,et al.  Tunable electrical conductivity of individual graphene oxide sheets reduced at "low" temperatures. , 2008, Nano letters.

[38]  L. Brinson,et al.  Functionalized graphene sheets for polymer nanocomposites. , 2008, Nature nanotechnology.

[39]  G. Eda,et al.  Large-area ultrathin films of reduced graphene oxide as a transparent and flexible electronic material. , 2008, Nature nanotechnology.

[40]  T. Belytschko,et al.  Computational Studies of the Structure, Behavior upon Heating, and Mechanical Properties of Graphite Oxide , 2007 .

[41]  Imre Dékány,et al.  Evolution of surface functional groups in a series of progressively oxidized graphite oxides , 2006 .

[42]  A. V. Duin,et al.  ReaxFF: A Reactive Force Field for Hydrocarbons , 2001 .

[43]  J. Robertson,et al.  Interpretation of Raman spectra of disordered and amorphous carbon , 2000 .

[44]  G. Kresse,et al.  From ultrasoft pseudopotentials to the projector augmented-wave method , 1999 .

[45]  Burke,et al.  Generalized Gradient Approximation Made Simple. , 1996, Physical review letters.

[46]  Kresse,et al.  Efficient iterative schemes for ab initio total-energy calculations using a plane-wave basis set. , 1996, Physical review. B, Condensed matter.

[47]  G. Kresse,et al.  Efficiency of ab-initio total energy calculations for metals and semiconductors using a plane-wave basis set , 1996 .

[48]  Steve Plimpton,et al.  Fast parallel algorithms for short-range molecular dynamics , 1993 .

[49]  H. Ehrenreich,et al.  Self-Consistent Field Approach to the Many-Electron Problem , 1959 .

[50]  W. S. Hummers,et al.  Preparation of Graphitic Oxide , 1958 .

[51]  R. Ruoff,et al.  The chemistry of graphene oxide. , 2010, Chemical Society reviews.