PDF Publication Title:
Text from PDF Page: 002
(56) ReferencesCited OTHER PUBLICATIONS US8,696,938B2 Page2 Kovtyukhova.N.I.etal.Layer-by-layerassemblyofultrathincom positefilmsfrommicron-sizedgraphiteoxideshetsandpolycations. Chem.Mater.11,771-778(19). Szabo,T.,etal.Compositegraphiticnanolayerspreparedbyself assemblybetweenfinelydispersedgraphiteoxideandacationic polymer.Carbon43,87-94(205). Stankovich,S.Stableaqueousdisp.ofgraphnanoplateletsviathe reduc of exfoliated GO in the presence of poly(sodium 4-styrenesulfonate)J.Mat.Chem.16,155-158(206). Stankovich,S.Piner,R.D.,Nguyen,S.T.andRuoff,R.S.Synthesis andexfoliationofisocyanate-treatedgrapheneoxidenanoplatelets. U.S.Appl.No.11/007614,filedDec.7,2006,V.Petrik. U.S.Appl.No.11/363,336,filedJun.27,2006,L.T.Drzal,etal. U.S.Appl.No.11/361,255,filedFeb.24,2006,L.T.Drzal,etal. U.S.Appl.No.10/659,577,filedSep.10,2003,L.T.Drzal,etal. U.S.Appl.No.11/243.285,filedOct.4,2005,J.D.Udy. U.S.Appl.No.11/249,404,filedOct.14,2005,R.Prud’Homme. U.S.Appl.No.11/800,728,filedMay8,2007,A.Zhamu,etal. U.S.Appl.No.11/526,489,filedSep.26,2006,B.Z.Jang,etal. Carbon44,3342-3347(2006). Novoselov,K.S.,etal.Electricfieldefectinatomicallythincarbon films.Science306,666-669(204). Novoselov,K.S.,etal.Twodimensionalatomiccrystals.Proc.Natl. Acad.Sci.102,10451-10453(205). McAllister,M.J.,etal.Singlesheetfunctionalizedgrapheneby oxidationandthermalexpansionofgraphite.Chem.Materials 19(18),4396-4404(207). Li,J.L.,etal.Oxygen-drivenunzippingofgraphiticmaterials.Phys. Rev.Let.96,176101-1-4(2006). Schniepp,H.C.,etal.Functionalizedsinglegrapheneshetsderived fromsplitinggraphiteoxide.J.Phys.Chem.B110,8535-8547 (2006). Li,X.Wang,X.Zhang,L.,Lee,S.&Dai,H.,Chemicallyderived, ultrasmooth graphene nanoribbon semiconductor. Science 319, 1229-1232(208). BorZ.JangandAZhamu,“ProcessingofNanoGraphenePlatelets (NGPs)andNGPNanocomposites:AReview.”J.MaterialsSci.43 (2008)5092-5101. Horiuchi,S.,etal.Singlegrapheneshetdetectedinacarbon nanofilm.Appl.Phys.Let.84,2403-2405(204). Liu,P.&Gong,K.Synthesisofpolyaniline-intercalatedgraphite oxidebyaninsituoxidativepolymerizationreaction.Carbon37. 706-707(1999). Dekany,I.,Kruger-Grasser,R.&Weiaa,A.Selectiveliquidsorption propertiesofhydrophobizedgraphiteoxidenanostructures.Colloid PolymerSci.276,570-576(1998). Chen,G.H.Preparationandcharacterizationofgraphitenanosheets fromultrasonicpowderingtechnique.Carbon42,753-759(204). Matsuo,Y.,etal.Preparationandcharacterizationofpolyvinylalco hol)-andCu(OH)2-poly(vinylalcohol)-intercalatedgraphiteoxides. Chem.Materials10,2266-2269(1998). Du,X.S.,etal.Directsynthesisofpoly(arylenedisulfide)/carbon nano-sheetcompositesviatheOxidationwithgraphiteoxide.Carbon 43,195-213(2005). Matsuo.Y.,Tahara,K.&Sugie,Y.Synthesisofpoly(ethyleneoxide)- intercalatedgraphiteoxide.Carbon34,672-674(196). Kotov,N.A.,etal.Ultrathingraphiteoxide-polyelectrolytecompos itespreparedbyself-asembly:transitionbetweenconducandnon conduc.Adv.Mater.8,637-641(1996). Matsuo.Y.,Tahara,K.&Sugie,Y.Structureandthermalpropertiesof poly(ethyleneoxide)-intercalatedgraphiteoxide.Carbon35(1), 113-120(1997). Lu,X.K.Yu.M.F.,Huang,H.,&Ruoff,R.S.Tailoringgraphitewith thegoalofachievingsingleshets.Nanotechnology10,269-272 (19). X.Yang,X.Dou,A.Rouhanipour,L.Zhi,H.J.Raider,andK.Mullen, “Tow-dimensionalGrapheneNano-ribbons.”J.Am.Chem.Soc.130 (2008)4216-17. H. A. Beceril,etal.,“Evaluation ofSolution-Processed Reduced GrapheneOxideFilmsasTransparentConductors.”ACSNano2 (2008)463-470. X.Wang,L.Zhi,andK.Muellen,“Transparent,Conductive GrapheneElectrodesforDye-SensitizedSolarCels.”NanoLeters, 8(2008)323-327. Li,D.,Muller,M.C.,Gilje,S.Kaner,R.B.&Wallace,G.Process able aqueous dispersions of graphene nanosheets. Nature Nanotechnology3,101-105(208). Y.SiandE.T.Samulski.“SynthesisofWaterSolubleGraphene.” NanoLeters,8(6)(2008)1679-1682. Shioyama,H.Cleavageofgraphitetographene.J.Mater.Sci.Let. 20,499-500(2001). Viculis,L.M.,Mack,J.J.,& Kaner,R.B.A chemicalroutetocarbon nanoscrols.Science,299,1361(203). Berger,C.,etal.Ultrathinepitaxialgraphite:2-Delectrongasprop ertiesandaroutetowardgraphene-basednanoelectronics.J.Phys. Chem.B108,19912-19916(204). Roy,H.V.Kalinger,C.,Marsen,B.&Satler,K.Manipulationof graphiticshetsusingatunnelingmicroscope.J.Appl.Physics83. (9)4695-4699(198). Geim,A.K.& Novoselov,K.S.Theriseofgrapheme.Nature Materials6,183-191(207). Stankovich,S.,etal.“Graphene-basedcompositematerials.”Nature Leters,442,282-286(206). SandipNiyogi,etal.SolutionPropertiesofGraphiteandGraphene, J.Am.Chem.Soc.,128(24)(2006)7720-7721. Worsley,K.A“SolubleGrapheneDerivedfromGraphiteFluoride.” Chem.Phys.Let.,445(1-3)(2007)51-56. Li,J.,etal.Conductivegraphitenanoplatelet?epoxynanocomp.: efectsofexfol.andUV/Ozonetreatmentofgraphite.Scripta Materialia53,235-240(205). Dikin, D. A. Preparation and characterization of graphene oxide paper.NatureLeters448,457-460(207). *citedbyexaminerPDF Image | SCO2 Producing Nanographine Platelets
PDF Search Title:
SCO2 Producing Nanographine PlateletsOriginal File Name Searched:
US8696938.pdfDIY PDF Search: Google It | Yahoo | Bing
Sulfur Deposition on Carbon Nanofibers using Supercritical CO2 Sulfur Deposition on Carbon Nanofibers using Supercritical CO2. Gamma sulfur also known as mother of pearl sulfur and nacreous sulfur... More Info
CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
| CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com | RSS | AMP |