Supercritical CO2 processing to improve the electrochemical properties of graphene oxide

[1]  E. Reverchon,et al.  Production of antimicrobial membranes loaded with potassium sorbate using a supercritical phase separation process , 2016 .

[2]  P. Ciambelli,et al.  Electrochemical Applications of Magnetic Core-Shell Graphene-Coated FeCo Nanoparticles , 2016 .

[3]  E. Reverchon,et al.  Antioxidant phenolic compounds recovery from Mangifera indica L. by-products by supercritical antisolvent extraction , 2015 .

[4]  Iolanda De Marco,et al.  Folic acid-PVP nanostructured composite microparticles by supercritical antisolvent precipitation , 2015 .

[5]  J. Santamaría,et al.  Formation of Cellulose Acetate–Graphene Oxide Nanocomposites by Supercritical CO2 Assisted Phase Inversion , 2015 .

[6]  S. Concilio,et al.  Complete glutaraldehyde elimination during chitosan hydrogel drying by SC-CO2 processing , 2015 .

[7]  Y. Meng,et al.  A Novel Nanomaterial of Graphene Oxide Dotted with Ni Nanoparticles Produced by Supercritical CO2-Assisted Deposition for Reducing Friction and Wear. , 2015, ACS applied materials & interfaces.

[8]  E. Reverchon,et al.  α-Tocopherol nanosuspensions produced using a supercritical assisted process , 2015 .

[9]  E. Drioli,et al.  Supercritical CO2–EtOH expanded liquid processing to produce tailored PEEK-WC membranes , 2014 .

[10]  Rute A. S. Ferreira,et al.  Breakdown into nanoscale of graphene oxide: Confined hot spot atomic reduction and fragmentation , 2014, Scientific Reports.

[11]  Ke Dai,et al.  Facile synthesis of reduced graphene oxide/WO3 nanoplates composites with enhanced photocatalytic activity , 2014 .

[12]  Bo Wang,et al.  Effect of supercritical CO(2) on fabrication of free-standing hierarchical graphene oxide/carbon nanofiber/polypyrrole film and its electrochemical property. , 2014, Physical chemistry chemical physics : PCCP.

[13]  E. Reverchon,et al.  Supercritical assisted enzymatic membranes preparation, for active packaging applications , 2014 .

[14]  Jifang Fu,et al.  A graphene hybrid material functionalized with POSS: Synthesis and applications in low-dielectric epoxy composites , 2014 .

[15]  MinHo Yang,et al.  High quality reduced graphene oxide through repairing with multi-layered graphene ball nanostructures , 2013, Scientific Reports.

[16]  Byung Gon Kim,et al.  Restacking-inhibited 3D reduced graphene oxide for high performance supercapacitor electrodes. , 2013, ACS nano.

[17]  Almahdi A. Alhwaige,et al.  Biobased chitosan hybrid aerogels with superior adsorption: Role of graphene oxide in CO2 capture , 2013 .

[18]  W. Xing,et al.  Reduced graphene oxide aerogel with high-rate supercapacitive performance in aqueous electrolytes , 2013, Nanoscale Research Letters.

[19]  Yuming Cui,et al.  One-pot synthesis of α-Fe2O3 nanospheres by solvothermal method , 2013, Nanoscale Research Letters.

[20]  Francisco del Monte,et al.  Three dimensional macroporous architectures and aerogels built of carbon nanotubes and/or graphene: synthesis and applications. , 2013, Chemical Society reviews.

[21]  Zhimin Chen,et al.  Preparation of Graphene Oxide/Polyaniline Nanocomposite with Assistance of Supercritical Carbon Dioxide for Supercapacitor Electrodes , 2012 .

[22]  T. Kyotani,et al.  Templated Nanocarbons for Energy Storage , 2012, Advanced materials.

[23]  Andreas Hirsch,et al.  Visualization of defect densities in reduced graphene oxide , 2012 .

[24]  D. B. Talange,et al.  Development, modeling and characterization of aqueous metal oxide based supercapacitor , 2012 .

[25]  M. Zachariah,et al.  Crumpled nanopaper from graphene oxide. , 2012, Nano letters.

[26]  I. Honma,et al.  Supercritical Fluid Processing of Graphene and Graphene Oxide , 2011 .

[27]  D. Wexler,et al.  Comparison of GO, GO/MWCNTs composite and MWCNTs as potential electrode materials for supercapacitors , 2011 .

[28]  P. Ajayan,et al.  Ultrathin planar graphene supercapacitors. , 2011, Nano letters.

[29]  Xiong Zhang,et al.  High performance supercapacitors based on reduced graphene oxide in aqueous and ionic liquid electrolytes , 2011 .

[30]  B. Jang,et al.  Graphene-based supercapacitor with an ultrahigh energy density. , 2010, Nano letters.

[31]  Y. Chabal,et al.  Unusual infrared-absorption mechanism in thermally reduced graphene oxide. , 2010, Nature materials.

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

[33]  Yan‐Bing He,et al.  Low-temperature exfoliated graphenes: vacuum-promoted exfoliation and electrochemical energy storage. , 2009, ACS nano.

[34]  N. Pu,et al.  Production of few-layer graphene by supercritical CO2 exfoliation of graphite , 2009 .

[35]  Yuyuan Tian,et al.  Measurement of the quantum capacitance of graphene. , 2009, Nature nanotechnology.

[36]  Wei Gao,et al.  New insights into the structure and reduction of graphite oxide. , 2009, Nature chemistry.

[37]  G. Lu,et al.  Hierarchical porous carbons with high performance for supercapacitor electrodes , 2009 .

[38]  J. Kysar,et al.  Measurement of the Elastic Properties and Intrinsic Strength of Monolayer Graphene , 2008, Science.

[39]  S. Jafari,et al.  Charge storage mechanism of sonochemically prepared MnO2 as supercapacitor electrode: Effects of physisorbed water and proton conduction , 2008 .

[40]  C. N. Lau,et al.  Superior thermal conductivity of single-layer graphene. , 2008, Nano letters.

[41]  G. Wallace,et al.  Processable aqueous dispersions of graphene nanosheets. , 2008, Nature nanotechnology.

[42]  C. N. Lau,et al.  Temperature dependence of the Raman spectra of graphene and graphene multilayers. , 2007, Nano letters.

[43]  S. Stankovich,et al.  Synthesis and exfoliation of isocyanate-treated graphene oxide nanoplatelets , 2006 .

[44]  Andre K. Geim,et al.  Raman spectrum of graphene and graphene layers. , 2006, Physical review letters.

[45]  Wei Xing,et al.  Superior electric double layer capacitors using ordered mesoporous carbons , 2006 .

[46]  I. Dékány,et al.  DRIFT study of deuterium-exchanged graphite oxide , 2005 .

[47]  J. A. Menéndez,et al.  Infrared Spectroscopy of Carbon Materials: A Quantum Chemical Study of Model Compounds , 2003 .

[48]  B. Conway Electrochemical Supercapacitors: Scientific Fundamentals and Technological Applications , 1999 .

[49]  Xi Shen,et al.  Wrinkling in Graphene Sheets and Graphene Oxide Papers , 2014 .

[50]  Sundaram Gunasekaran,et al.  Electrochemically reduced graphene oxide sheets for use in high performance supercapacitors , 2013 .

[51]  E. Borowiak‐Palen,et al.  Synthesis, dispersion, and cytocompatibility of graphene oxide and reduced graphene oxide. , 2012, Colloids and surfaces. B, Biointerfaces.

[52]  R. Car,et al.  Raman spectra of graphite oxide and functionalized graphene sheets. , 2008, Nano letters.

[53]  J. D. Lopez-Gonzalez,et al.  Study of oxygen-containing groups in a series of graphite oxides: Physical and chemical characterization , 1995 .