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Controlled Growth and Application for the Anodization of Tin and Iron = 양극산화를 통한 주석과 철 산화물의 성장 제어와 응용

모리 닐스 2016년

논문상세정보
인용/피인용
' Controlled Growth and Application for the Anodization of Tin and Iron = 양극산화를 통한 주석과 철 산화물의 성장 제어와 응용' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 화학과 응용과학
  • anodization
  • growth mechanism
  • ironoxide
  • li ion battery
  • self-cleaning surfaces
  • tin oxide
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
1,470 0

0.0%

' Controlled Growth and Application for the Anodization of Tin and Iron = 양극산화를 통한 주석과 철 산화물의 성장 제어와 응용' 의 참고문헌

  • ! Z.!Wen,!F.!Zheng,!H.!Yu,!Z.!Jiang!and!K.!Liu,!“Hydrothermal!synthesis!of! flowerlike!SnO2!nanorod!bundles!and!their!application!for!lithium!ion!battery,”! Mater.*Charact.,!vol.!76,!pp.!1–5,!2013.!
  • ! Z.!Guo,!T.!Fu!and!H.!Fu,!“Crystal!orientation!measured!by!XRD!and!annotation!of! the!butterfly!diagram,”!Mater.*Charact.,!vol.!44,!no.!4,!pp.!431–434,!2000.!
  • ! Y.!Yu,!C.!H.!Chen!and!Y.!Shi,!“A!tinDbased!amorphous!oxide!composite!with!a! porous,!spherical,!multideckDcage!morphology!as!a!highly!reversible!anode! material!for!lithiumDion!batteries,”!Adv.*Mater.,!vol.!19,!pp.!993–997,!2007.!
  • ! Y.!Wang,!I.!Djerdj,!B.!Smarsly!and!M.!Antonietti,!“AntimonyDdoped!sno2! nanopowders!with!high!crystallinity!for!lithiumDion!battery!electrode,”!Chem.* Mater.,!vol.!21,!no.!14,!pp.!3202–3209,!2009.!
  • ! Y.!S.!Hu,!A.!KleimanDShwarsctein,!A.!J.!Forman,!D.!Hazen,!J.!N.!Park!and!E.!W.! McFarland,!“PtDdoped!alphaDFe2O3!thin!films!active!for!photoelectrochemical! water!splitting,”!Chem.*Mater.,!vol.!20,!no.!12,!pp.!3803–3805,!2008.!
  • ! Y.!S.!Hu,!A.!KleimanDShwarsctein,!A.!J.!Forman,!D.!Hazen,!J.!N.!Park!and!E.!W.! McFarland,!“PtDdoped αDFe2O3!thin!films!active!for!photoelectrochemical!water! splitting,”!Chem.*Mater.,!vol.!20,!no.!12,!pp.!3803–3805,!2008.!
  • ! Y.!Matsumoto,!“Energy!Positions!of!Oxide!Semiconductors!and!Photocatalysis! with!Iron!Complex!Oxides,”!J.*Solid*State*Chem.,!vol.!126,!no.!2,!pp.!227–234,! 1996.!
  • ! Y.!Idota,!“TinDBased!Amorphous!Oxide:!A!HighDCapacity!LithiumDIonDStorage! Material,”!Science,!vol.!276,!no.!5317,!pp.!1395–1397,!1997.!
  • ! X.!Zhu,!L.!Zhu,!Z.!Duan,!R.!Qi,!Y.!Li!and!Y.!Lang,!“Comparative!toxicity!of!several! metal!oxide!nanoparticle!aqueous!suspensions!to!Zebrafish!(Danio!rerio)!early! developmental!stage,”!J.*Environ.*Sci.*Health.*A.*Tox.*Hazard.*Subst.*Environ.*Eng.,! vol.!43,!no.!3,!pp.!278–284,!2008.!
  • ! X.!W.!Lou,!L.!A.!Archer!and!Z.!Yang,!“Hollow!microD/nanostructures:!Synthesis! and!applications,”!Advanced*Materials,!vol.!20,!no.!21,!pp.!3987–4019,!2008.!
  • ! X.!W.!Lou,!J.!S.!Chen,!P.!Chen!and!L.!A.!Archer,!“OneDpot!synthesis!of!carbonD coated!SnO2!nanocolloids!with!improved!reversible!lithium!storage! properties,”!Chem.*Mater.,!vol.!21,!no.!13,!pp.!2868–2874,!2009.!
  • ! X.!W.!Lou,!C.!M.!Li!and!L.!A.!Archer,!“Designed!synthesis!of!coaxial! SnO2@carbon!hollow!nanospheres!for!highly!reversible!lithium!storage,”!Adv.* Mater.,!vol.!21,!no.!24,!pp.!2536–2539,!2009.!
  • ! X.!Meng,!Y.!Zhang,!S.!Sun,!R.!Li!and!X.!Sun,!“Three!growth!modes!and! mechanisms!for!highly!structureDtunable!SnO2!nanotube!arrays!of!templateD directed!atomic!layer!deposition,”!J.*Mater.*Chem.,!vol.!21,!p.!12321,!2011.!
  • ! X.!Hou,!Y.!Hu,!H.!Jiang,!Y.!Li,!W.!Li,!and!C.!Li,!“OneDstep!synthesis!of!SnOx! nanocrystalline!aggregates!encapsulated!by!amorphous!TiO2!as!an!anode!in!LiD ion!battery,”!J.*Mater.*Chem.*A,!vol.!3,!no.!18,!pp.!9982–9988,!2015.!
  • ! X.!Gou,!G.!Wang,!X.!Kong,!D.!Wexler,!J.!Horvat,!J.!Yang!and!J.!Park,!“Flutelike! porous!hematite!nanorods!and!branched!nanostructures:!Synthesis,! characterisation!and!application!for!gasDsensing,”!Chem.*8*A*Eur.*J.,!vol.!14,!no.! 19,!pp.!5996–6002,!2008.!
  • ! X.!Du!and!S.!M.!George,!“Thickness!dependence!of!sensor!response!for!CO!gas! sensing!by!tin!oxide!films!grown!using!atomic!layer!deposition,”!Sensors* Actuators,*B*Chem.,!vol.!135,!no.!1,!pp.!152–160,!2008.!
  • ! X.!Deng,!L.!Mammen,!H.DJ.!Butt!and!D.!Vollmer,!“Candle!Soot!as!a!Template!for!a! Transparent!Robust!Superamphiphobic!Coating,”!Science,!vol.!335,!no.!2012,! pp.!67–70,!2012.! Application!of!SelfDOrganizing!Arrays!of!SnO2!Microplates!with!Enhanced! Photocatalytic!and!Antimicrobial!Properties!in!Comparison!to!SpongeDlike!SnOx!
  • ! W.!M.!Zhang,!X.!L.!Wu,!J.!S.!Hu,!Y.!G.!Guo!and!L.!J.!Wan,!“Carbon!coated!Fe3O4! nanospindles!as!a!superior!anode!material!for!lithiumDion!batteries,”!Adv.* Funct.*Mater.,!vol.!18,!no.!24,!pp.!3941–3946,!2008.!
  • ! W.!Lee,!R.!Ji,!U.!G sele!and!K.!Nielsch,!“Fast!fabrication!of!longDrange!ordered! porous!alumina!membranes!by!hard!anodization.,”!Nat.*Mater.,!vol.!5,!no.!9,!pp.! 741–747,!2006.!
  • ! W.!Kaim,!B.!Schwederski!and!A.!Klein,!Bioinorganic*Chemistry*8*Inorganic* Elements*in*the*Chemistry*of*Life,!Weinheim:!WileyDVCH,!2013.!
  • ! W.!J.!Stark,!“Nanopartikel!in!biologischen!Systemen,”!Angew.*Chemie,!vol.!123,! no.!6,!pp.!1276–1293,!2011.!
  • ! V.!P.!Parkhutik!and!V.!I.!Shershulsky,!“Theoretical!modelling!of!porous!oxide! growth!on!aluminium,”!J.*Phys.*D.*Appl.*Phys.,!vol.!25,!pp.!1258–1263,!1992.!
  • ! V.!Lehmann!and!U.!G sele,!“Porous!silicon!formation:!A!quantum!wire!effect,”! Appl.*Phys.*Lett.,!vol.!58,!no.!8,!pp.!856–858,!1991.!
  • ! T.!T.!Emons,!J.!Li!and!L.!F.!Nazar,!“Synthesis!and!characterization!of!mesoporous! indium!tin!oxide!possessing!an!electronically!conductive!framework,”!J.*Am.* Chem.*Soc.,!vol.!124,!no.!29,!pp.!8516–8517,!2002.!
  • ! T.!P.!Hoar!and!N.!F.!Mott,!“A!mechanism!for!the!formation!of!porous!anodic! oxide!films!on!aluminium,”!J.*Phys.*Chem.*Solids,!vol.!9,!no.!2,!pp.!97–99,!1959.!
  • ! T.!Oshima,!T.!Okuno!and!S.!Fujita,!“Thin!Film,”!Japanese*Journal*of*Applied* Physics,!vol.!48,!no.!12,!p.!120207,!2009.!
  • ! T.!L.!Barr,!“Nature!of!the!use!of!adventitious!carbon!as!a!binding!energy! standard,”!Journal*of*Vacuum*Science*&*Technology*A:*Vacuum,*Surfaces,*and* Films,!vol.!13,!no.!3,!p.!1239,!1995.!
  • ! T.!J.!Latempa,!X.!Feng,!M.!Paulose,!C.!a!Grimes,!V.!Uni,!U.!V!Park!and!V.!Pennsyl,! “TemperatureDDependent!Growth!of!SelfDAssembled!Hematite!(rDFe2O3)! Nanotube!Arrays :!Rapid!Electrochemical!Synthesis!and!Photoelectrochemical! Properties,”!vol.!113,!pp.!16293–16298,!2009.!
  • ! T.!Brousse,!“ThinDFilm!Crystalline!SnO2DLithium!Electrodes,”!Journal*of*The* Electrochemical*Society,!vol.!145,!no.!1,!p.!1,!1998.!!
  • ! S.DH.!Yu,!J.!Shin,!J.DJ.!Kim,!K.!J.!Lee!and!Y.DE.!Sung,!“Vertically!aligned!iron!oxide! nanotube!arrays!and!porous!magnetite!nanostructures!as!threeDdimensional! electrodes!for!lithium!ion!microbatteries,”!RSC*Adv.,!vol.!2,!pp.!12177–12181,! 2012.!
  • ! S.!Yeonmi!and!L.!Seonghoon,!“SelfDorganized!regular!arrays!of!anodic!TiO2! nanotubes,”!Nano*Lett.,!vol.!8,!no.!10,!pp.!3171–3173,!2008.!
  • ! S.!U.!M.!Khan!and!J.!Akikusa,!“Photoelectrochemical!splitting!of!water!at! nanocrystalline!nDFe2O3!thinDfilm!electrodes,”!J.*Phys.*Chem.*B,!vol.!103,!no.!34,! pp.!7184–7189,!1999.!
  • ! S.!Shanmugam!and!A.!Gedanken,!“CarbonDcoated!anatase!TiO2!nanocomposite! as!a!highDperformance!electrocatalyst!support,”!Small,!vol.!3,!no.!7,!pp.!1189– 1193,!2007.!
  • ! S.!P.!Albu,!A.!Ghicov!and!P.!Schmuki,!“High!aspect!ratio,!selfDordered!iron!oxide! nanopores!formed!by!anodization!of!Fe!in!ethylene!glycol/NH4F!electrolytes,”! Phys.*Status*Solidi*8*Rapid*Res.*Lett.,!vol.!3,!no.!2,!pp.!64–66,!2009.!
  • ! S.!Ono,!Y.!Kobayashi,!R.!Kobayashi!and!H.!Asoh,!“Fabrication!of!SelfDOrganized! Nanoporous!Oxide!Semiconductors!by!Anodization,”!ECS*Trans.,!vol.!16,!no.!3,! pp.!353–358,!2008.!
  • ! S.!K.!Mohapatra,!S.!E.!John,!S.!Banerjee!and!M.!Misra,!“Water!photooxidation!by! smooth!and!ultrathin!RDFe2O3!nanotube!arrays,”!Chem.*Mater.,!vol.!21,!no.!9,! pp.!3048–3055,!2009.!
  • ! S.!J.!Park!and!H.!C.!Shin,!“Fabrication!of!nanoDchanneled!tin!oxide!film!electrode! and!evaluation!of!its!electrochemical!properties,”!Korean*J.*Mater.*Res.,!vol.!22,! no.!1,!pp.!1–7,!2012.!
  • ! S.!Dai!and!Z.!Yao,!“Synthesis!of!flowerDlike!SnO2!single!crystals!and!its! enhanced!photocatalytic!activity,”!Applied*Surface*Science,!vol.!258,!no.!15,!pp.! 5703–5706,!2012.!
  • ! S.!Chappel!and!A.!Zaban,!“Nanoporous!SnO2!electrodes!for!dyeDsensitized!solar! cells:!Improved!cell!performance!by!the!synthesis!of!18!nm!SnO2!colloids,”!Sol.* Energy*Mater.*Sol.*Cells,!vol.!71,!no.!2,!pp.!141–152,!2002.!
  • ! R.!R.!Rangaraju,!a!Panday,!K.!S.!Raja!and!M.!Misra,!“Nanostructured!anodic!iron! oxide!film!as!photoanode!for!water!oxidation,”!J.*Phys.*D.*Appl.*Phys.,!vol.!42,!p.! 135303,!2009.!!
  • ! R.!R.!Rangaraju,!a!Panday,!K.!S.!Raja!and!M.!Misra,!“Nanostructured!anodic!iron! oxide!film!as!photoanode!for!water!oxidation,”!J.*Phys.*D.*Appl.*Phys.,!vol.!42,!p.! 135303,!2009.! Controlled!Synthesis!and!Growth!Mechanism!for!the!Anodization!of!Iron!
  • ! R.!R.!Rangaraju,!K.!S.!Raja,!A.!Panday!and!M.!Misra,!“An!investigation!on!room! temperature!synthesis!of!vertically!oriented!arrays!of!iron!oxide!nanotubes!by! anodization!of!iron,”!Electrochim.*Acta,!vol.!55,!pp.!785–793,!2010.!
  • ! R.!L.!Spray!and!K.!S.!Choi,!“Photoactivity!of!transparent!nanocrystalline!Fe2O3! electrodes!prepared!via!anodic!electrodeposition,”!Chem.*Mater.,!vol.!21,!no.!15,! pp.!3701–3709,!2009.!
  • ! R.!L.!Smith!and!S.!D.!Collins,!“Porous!silicon!formation!mechanisms,”!J.*Appl.* Phys.,!vol.!71,!no.!8,!1992.!
  • ! R.!Kohler,!H.!Besser,!M.!Hagen,!J.!Ye,!C.!Ziebert,!S.!Ulrich,!J.!Proell!and!W.! Pfleging,!“Laser!microDstructuring!of!magnetronDsputtered!SnOx!thin!films!as! anode!material!for!lithium!ion!batteries,”!Microsyst.*Technol.,!vol.!17,!no.!2,!pp.! 225–232,!2011.!
  • ! R.!J.!Griffitt,!R.!Weil,!K.!A.!Hyndman,!N.!D.!Denslow,!K.!Powers,!D.!Taylor!and!D.! S.!Barber,!“Exposure!to!copper!nanoparticles!causes!gill!injury!and!acute! lethality!in!zebrafish!(Danio!rerio),”!Environ.*Sci.*Technol.,!vol.!41,!no.!23,!pp.! 8178–8186,!2007.!
  • ! R.!F.!Schmidt,!F.!Lang!and!M.!Heckmann,!Die*Physiologie*des*Menschen,!31st!ed.! Berlin,!Heidelberg:!Springer,!2010.!
  • ! R.!Andr ,!M.!N.!Tahir,!H.!C.!C.!Schr der,!W.!E.!G.!M ller!and!W.!Tremel,! “Enzymatic!synthesis!and!surface!deposition!of!tin!dioxide!using!silicateinDα,”! Chem.*Mater.,!vol.!23,!no.!24,!pp.!5358–5365,!2011.!
  • ! R.!Andr ,!F.!Natalio,!M.!N.!Tahir,!R.!Berger!and!W.!Tremel,!“SelfDcleaning! antimicrobial!surfaces!by!bioDenabled!growth!of!SnO2!coatings!on!glass.,”! Nanoscale,!vol.!5,!no.!8,!pp.!3447–56,!2013.!
  • ! R.!Andr ,!F.!Natalio,!M.!N.!Tahir,!R.!Berger!and!W.!Tremel,!“SelfDcleaning! antimicrobial!surfaces!by!bioDenabled!growth!of!SnO2!coatings!on!glass,”! Nanoscale,!vol.!5,!pp.!3447–56,!2013.!!
  • ! P.!Roy,!S.!Berger!and!P.!Schmuki,!“TiO2!nanotubes:!Synthesis!and!applications,”! Angew.*Chemie*8*Int.*Ed.,!vol.!50,!no.!13,!pp.!2904–2939,!2011.!
  • ! P.!G.!Bruce,!B.!Scrosati!and!J.DM.!Tarascon,!“Nanomaterials!for!rechargeable! lithium!batteries.,”!Angew.*Chem.*Int.*Ed.*Engl.,!vol.!47,!no.!16,!pp.!2930–2946,! 2008.!
  • ! P.!Docampo!and!H.!J.!Snaith,!“Obviating!the!requirement!for!oxygen!in!SnO2D based!solidDstate!dyeDsensitized!solar!cells,”!Nanotechnology,!vol.!22,!no.!22,!p.! 225403,!2011.!
  • ! O.!Madelung,!U.!R ssler!and!S.!M.,!Landolt8B rnstein*8*Group*III,*Condensed* Matter,*Numerical*Data*and*Functional*Relationships*in*Science*and*Technology,! vol.!41C,!1998.!
  • ! N.!Mukherjee,!M.!Paulose,!O.!K.!Varghese,!G.!K.!Mor!and!C.!A.!Grimes,! “Fabrication!of!nanoporous!tungsten!oxide!by!galvanostatic!anodization,”! Journal*of*Materials*Research,!vol.!18,!no.!10,!pp.!2296–2299,!2003.!
  • ! N.!K.!Shrestha,!M.!Yang!and!P.!Schmuki,!“SelfDOrdered!Nanoporous!Nickel! Oxide/Fluoride!Composite!Film!with!Strong!Electrochromic!Contrast,”! Electrochemical*and*Solid8State*Letters,!vol.!13,!no.!8,!p.!C21,!2010.!
  • ! M.!Zorn,!S.!Meuer,!M.!N.!Tahir,!Y.!Khalavka,!C.!S nnichsen,!W.!Tremel!and!R.! Zentel,!“Liquid!crystalline!phases!from!polymer!functionalised!semiconducting! nanorods,”!Journal*of*Materials*Chemistry,!vol.!18,!no.!25,!p.!3050,!2008.!
  • ! M.!Wang,!Y.!Liu,!D.!Zhang!and!H.!Yang,!“Anodization!process!of!Sn!in!oxalic!acid! at!low!applied!voltages,”!Electrochim.*Acta,!vol.!59,!pp.!441–448,!2012.!!
  • ! M.!Wang,!Y.!Liu!and!H.!Yang,!“A!unified!thermodynamic!theory!for!the! formation!of!anodized!metal!oxide!structures,”!Electrochim.*Acta,!vol.!62,!pp.! 424–432,!2012.!
  • ! M.!Wang,!H.!Yang!and!Y.!Liu,!“Current!oscillations!during!potentiostatic! anodization!of!tin!in!alkaline!electrolytes,”!Electrochim.*Acta,!vol.!56,!no.!20,!pp.! 7051–7057,!2011.!
  • ! M.!Verg hl,!N.!Malkomes,!T.!Matth e,!G.!Br uer,!U.!Richter,!F.!W.!Nickol!and!J.! Bruch,!“In!situ!monitoring!of!optical!coatings!on!architectural!glass!and! comparison!of!the!accuracy!of!the!layer!thickness!attainable!with!ellipsometry! and!photometry,”!Thin*Solid*Films,!2001,!vol.!392,!no.!2,!pp.!258–264.!
  • ! M.!V.!Reddy,!T.!Yu,!C.!H.!Sow,!Z.!X.!Shen,!C.!T.!Lim,!G.!V.!Subba!Rao!and!B.!V.!R.! Chowdari,!“αDFe2O3!Nanoflakes!as!an!Anode!Material!for!LiDIon!Batteries,”!Adv.* Funct.*Mater.,!vol.!17,!no.!15,!pp.!2792–2799,!2007.!
  • ! M.!R.!Hoffmann,!M.!R.!Hoffmann,!S.!T.!Martin,!S.!T.!Martin,!W.!Choi,!W.!Choi,!D.! W.!Bahnemannt!and!D.!W.!Bahnemannt,!“Environmental!Applications!of! Semiconductor!Photocatalysis,”!Chem.*Rev.,!vol.!95,!no.!1,!pp.!69–96,!1995.!
  • ! M.!R.!Hoffmann,!M.!R.!Hoffmann,!S.!T.!Martin,!S.!T.!Martin,!W.!Choi,!W.!Choi,!D.! W.!Bahnemann,!and!D.!W.!Bahnemannt,!“Environmental!Applications!of! Semiconductor!Photocatalysis,”!Chem.*Rev.,!vol.!95,!no.!1,!pp.!69–96,!1995.!
  • ! M.!N.!Tahir,!F.!Natalio,!M.!A.!Cambaz,!M.!Panthofer,!R.!Branscheid,!U.!Kolb!and! W.!Tremel,!“Controlled!synthesis!of!linear!and!branched!Au@ZnO!hybrid! nanocrystals!and!their!photocatalytic!properties,”!Nanoscale,!vol.!5,!no.!20,!pp.! 9944–9949,!2013.!
  • ! M.!Mohamedi,!S.DJ.!Lee,!D.!Takahashi,!M.!Nishizawa,!T.!Itoh!and!I.!Uchida,! “Amorphous!tin!oxide!films:!preparation!and!characterization!as!an!anode! active!material!for!lithium!ion!batteries,”!Electrochimica*Acta,!vol.!46,!no.!8,!pp.! 1161–1168,!2001.!
  • ! M.!Lu,!P.!Pichat,!Photocatalysis*and*Water*Purification:*From*Fundamentals*to* Recent*Applications,!Weinheim:!WileyDVCH,!2013.!
  • ! M.!J.!HarnpdenDSmith,!T.!A.!Wark!and!C.!J.!Brinke,!“The!solid!state!and!solution! structures!of!tin!(IV)!alkoxide!compounds!and!their!use!as!ecursors!to!form!tin! oxi!ceramics!via!solDgelDtype!hydrolysis!and!condensation,”!Coord.*Chem.*Rev.,! vol.!112,!pp.!81–116,!1992.!
  • ! M.!Adnane,!H.!Cachet,!G.!Folcher!and!S.!Hamzaoui,!“Beneficial!effects!of! hydrogen!peroxide!on!growth,!structural!and!electrical!properties!of!sprayed! fluorineDdoped!SnO2!films,”!Thin*Solid*Films,!vol.!492,!no.!1–2,!pp.!240–247,! 2005.!
  • ! L.!Zhang,!H.!Bin!Wu!and!X.!(David)!Wen!Lou,!“Growth!of!SnO2!nanosheet!arrays! on!various!conductive!substrates!as!integrated!electrodes!for!lithiumDion! batteries,”!Mater.*Horizons,!vol.!1,!p.!133,!2014.!
  • ! L.!Zaraska,!N.!Czopik,!M.!Bobruk,!G.!D.!Sulka,!J.!Mech,!and!M.!Jaskuła,!“Synthesis! of!nanoporous!tin!oxide!layers!by!electrochemical!anodization,”!Electrochim.* Acta,!vol.!104,!pp.!549–557,!2013.!
  • ! L.!Young,!Anodic*Oxide*Films.!London:!Academic!Press,!1961.!
  • ! L.!Vayssieres,!N.!Beermann,!S.!E.!Lindquist!and!A.!Hagfeldt,!“Controlled!aqueous! chemical!growth!of!oriented!threeDdimensional!crystalline!nanorod!arrays:! Application!to!iron(III)!oxides,”!Chem.*Mater.,!vol.!13,!no.!2,!pp.!233–235,!2001.!
  • ! L.!Vayssieres!and!M.!Graetzel,!“Highly!ordered!SnO2!nanorod!arrays!from! controlled!aqueous!growth,”!Angew.*Chemie*8*Int.*Ed.,!vol.!43,!no.!28,!pp.!3666– 3670,!2004.!
  • ! L.!S.!Zhong,!J.!S.!Hu,!H.!P.!Liang,!A.!M.!Cao,!W.!G.!Song!and!L.!J.!Wan,!“SelfD assembled!3D!flowerlike!iron!oxide!nanostructures!and!their!application!in! water!treatment,”!Adv.*Mater.,!vol.!18,!no.!18,!pp.!2426–2431,!2006.!
  • ! L.!Liao,!Z.!Zheng,!B.!Yan,!J.!X.!Zhang,!H.!Gong,!J.!C.!Li,!C.!Liu,!Z.!X.!Shen!and!T.!Yu,! “Morphology!controllable!synthesis!of αDFe2O3!1D!nanostructures:!Growth! mechanism!and!nanodevice!based!on!single!nanowire,”!J.*Phys.*Chem.*C,!vol.! 112,!no.!29,!pp.!10784–10788,!2008.!
  • ! K.!Xie,!Z.!Lu,!H.!Huang,!W.!Lu,!Y.!Lai,!J.!Li,!L.!Zhou!and!Y.!Liu,!“Iron!supported! C@Fe3O4!nanotube!array:!a!new!type!of!3D!anode!with!lowDcost!for!high! performance!lithiumDion!batteries,”!J.*Mater.*Chem.,!vol.!22,!p.!5560,!2012.!
  • ! K.!Schwirn,!W.!Lee,!R.!Hillebrand,!M.!Steinhart,!K.!Nielsch!and!U.!G sele,!“SelfD ordered!anodic!aluminum!oxide!formed!by!H2SO4!hard!anodization,”!ACS* Nano,!vol.!2,!no.!2,!pp.!302–310,!2008.!
  • ! K.!J.!Lee,!P.!D.!Nallathamby,!L.!M.!Browning,!C.!J.!Osgood!and!X.!H.!Nancy!Xu,!“In! vivo!imaging!of!transport!and!biocompatibility!of!single!silver!nanoparticles!in! early!development!of!zebrafish!embryos,”!ACS*Nano,!vol.!1,!no.!2,!pp.!133–143,! 2007.! Application!of!SelfDOrganizing!Arrays!of!SnO2!Microplates!with!Enhanced! Photocatalytic!and!Antimicrobial!Properties!in!Comparison!to!SpongeDlike!SnOx!
  • ! K.!J.!Boyd,!“Formation!of!C–N!thin!films!by!ion!beam!deposition,”!Journal*of* Vacuum*Science*&*Technology*A:*Vacuum,*Surfaces*and*Films,"!vol.!13,!no.!4.!p,! 2110,!1995.! Synthesis!and!Characterization!of!Carbon!Coated!SpongeDlike!Tin!Oxide!Films!and! Their!Application!as!Electrode!Materials!in!Lithium!Ion!Batteries!
  • ! K.!D.!B.!J.F.!Moulder,!W.F.!Stickle,!P.E.!Sobol,!Handbook*of*X8ray*Photoelectron* Spectroscopy.!Eden!Prairie,!MN:!PerkinDElmer!Corp,!1992.!
  • ! J.F.!Rider,!Inside*the*Vacuum*Tube.!New!York:!John!F.!Rider!Publisher,!INC,! 1945.!
  • ! J.DJ.!Wu,!Y.DL.!Lee,!H.DH.!Chiang!and!D.!K.DP.!Wong,!“Growth!and!magnetic! properties!of!oriented!alphaDFe2O3!nanorods.,”!J.*Phys.*Chem.*B,!vol.!110,!no.!37,! pp.!18108–18111,!2006.!
  • ! J.DH.!Jeun,!H.DS.!Ryu!and!S.DH.!Hong,!“Nanoporous!SnO2!Film!Gas!Sensor!Formed! by!Anodic!Oxidation,”!J.*Electrochem.*Soc.,!vol.!156,!no.!9,!p.!J263,!2009.!
  • ! J.DH.!Jeun!and!S.DH.!Hong,!“CuODloaded!nanoDporous!SnO2!films!fabricated!by! anodic!oxidation!and!RIE!process!and!their!gas!sensing!properties,”!Sensors* Actuators*B*Chem.,!vol.!151,!no.!1,!pp.!1–7,!2010.!
  • ! J.!W.!Lee,!S.!J.!Park,!W.!S.!Choi,!and!H.!C.!Shin,!“WellDdefined!mesoD!to!macroD porous!film!of!tin!oxides!formed!by!an!anodization!process,”!Electrochim.*Acta,! vol.!56,!no.!17,!pp.!5919–5925,!2011.!
  • ! J.!W.!Lee,!S.!J.!Park!and!H.!C.!Shin,!“Electrochemical!characterization!of!anodic! tin!oxides!with!nanoDporous!structure,”!Korean*J.*Mater.*Res.,!vol.!21,!no.!1,!pp.! 21–27,!2011.!
  • ! J.!W.!Elam,!D.!A.!Baker,!A.!J.!Hryn,!A.!B.!F.!Martinson,!M.!J.!Pellin!and!J.!T.!Hupp,! “Atomic!layer!deposition!of!tin!oxide!films!using!tetrakis(dimethylamino)!tin,”! Journal*of*Vacuum*Science*&*Technology*A:*Vacuum,*Surfaces,*and*Films,!vol.!26,! no.!2,!p.!244,!2008.!
  • ! J.!W.!Diggle,!T.!C.!Downie!and!C.!W.!Goulding,!“Anodic!oxide!films!on!aluminum,”! Chem.*Rev.,!vol.!69,!no.!3,!pp.!365–405,!1969.!
  • ! J.!Sundqvist,!J.!Lu,!M.!Ottosson!and!A.!H rsta,!“Growth!of!SnO2!thin!films!by! atomic!layer!deposition!and!chemical!vapour!deposition:!A!comparative!study,”! Thin*Solid*Films,!vol.!514,!no.!1–2,!pp.!63–68,!2006.!
  • ! J.!S.!Chen,!Y.!L.!Cheah,!Y.!T.!Chen,!N.!Jayaprakash,!S.!Madhavi,!Y.!H.!Yang!and!X.! W.!Lou,!“SnO2!nanoparticles!with!controlled!carbon!nanocoating!as!highD capacity!anode!materials!for!lithiumDion!batteries,”!J.*Phys.*Chem.*C,!vol.!113,!no.! 47,!pp.!20504–20508,!2009.!
  • ! J.!S.!Chen!and!X.!W.!Lou,!“SnO2Dbased!nanomaterials:!Synthesis!and!application! in!lithiumDion!batteries,”!Small,!vol.!9,!no.!11,!pp.!1877–1893,!2013.!
  • ! J.!Pena,!J.!PerezDPariente!and!M.!ValletDRegi,!“Textural!properties!of! nanocrystalline!tin!oxide!obtained!by!spray!pyrolysis,”!Journal*of*Materials* Chemistry,!vol.!13,!no.!9,!p.!2290,!2003.! Application!of!SelfDOrganizing!Arrays!of!SnO2!Microplates!with!Enhanced! Photocatalytic!and!Antimicrobial!Properties!in!Comparison!to!SpongeDlike!SnOx!
  • ! J.!Pena,!J.!PerezDPariente!and!M.!ValletDRegi,!“Textural!properties!of! nanocrystalline!tin!oxide!obtained!by!spray!pyrolysis,”!Journal*of*Materials* Chemistry,!vol.!13,!no.!9,!p.!2290,!2003.!
  • ! J.!P.!Ahn,!J.!H.!Kim,!J.!K.!Park!and!M.!Y.!Huh,!“Microstructure!and!gasDsensing! properties!of!thick!film!sensor!using!nanophase!SnO2!powder,”!Sensors* Actuators,*B*Chem.,!vol.!99,!no.!1,!pp.!18–24,!2004.!
  • ! J.!N.!Tiwari,!R.!N.!Tiwari!and!K.!S.!Kim,!“ZeroDdimensional,!oneDdimensional,! twoDdimensional!and!threeDdimensional!nanostructured!materials!for! advanced!electrochemical!energy!devices,”!Progress*in*Materials*Science,!vol.! 57,!no.!4,!pp.!724–803,!2012.!
  • ! J.!M.!Tarascon!and!M.!Armand,!“Issues!and!challenges!facing!rechargeable! lithium!batteries.,”!Nature,!vol.!414,!no.!6861,!pp.!359–367,!2001.!
  • ! J.!M.!Macak,!H.!Tsuchiya,!L.!Taveira,!S.!Aldabergerova!and!P.!Schmuki,!“Smooth! anodic!TiO2!nanotubes,”!Angew.*Chemie*8*Int.*Ed.,!vol.!44,!no.!45,!pp.!7463– 7465,!2005.! SelfDOrganized!Arrays!of!SnO2!Lamellae:!Synthesis!and!Growth!Mechanism!
  • ! J.!M.!Macak,!H.!Tsuchiya,!A.!Ghicov,!K.!Yasuda,!R.!Hahn,!S.!Bauer!and!P.!Schmuki,! “TiO2!nanotubes:!SelfDorganized!electrochemical!formation,!properties!and! applications,”!Curr.*Opin.*Solid*State*Mater.*Sci.,!vol.!11,!no.!1–2,!pp.!3–18,!2007.!
  • ! J.!M.!Mac k,!H.!Tsuchiya!and!P.!Schmuki,!“HighDaspectDratio!TiO2!nanotubes!by! anodization!of!titanium,”!Angew.*Chemie*8*Int.*Ed.,!vol.!44,!pp.!2100–2102,!2005.!
  • ! J.!Liu,!Y.!Li,!X.!Huang,!R.!Ding,!Y.!Hu,!J.!Jiang!and!L.!Liao,!“Direct!growth!of!SnO2! nanorod!array!electrodes!for!lithiumDion!batteries,”!J.*Mater.*Chem.,!vol.!19,!p.! 1859,!2009.!
  • ! J.!Kaur,!S.!C.!Roy!and!M.!C.!Bhatnagar,!“Highly!sensitive!SnO2!thin!film!NO2!gas! sensor!operating!at!low!temperature,”!Sensors*Actuators,*B*Chem.,!vol.!123,!no.! 2,!pp.!1090–1095,!2007.!
  • ! J.!Herrmann,!“Heterogeneous!photocatalysis:!fundamentals!and!applications!to! the!removal!of!various!types!of!aqueous!pollutants,”!Catalysis*Today,!vol.!53,!no.! 1.!pp.!115–129,!1999.!
  • ! J.!H.!Park,!S.!Kim!and!A.!J.!Bard,!“Novel!carbonDdoped!TiO!2!nanotube!arrays! with!high!aspect!ratios!for!efficient!solar!water!splitting,”!Nano*Lett.,!vol.!6,!no.! 1,!pp.!24–28,!2006.!
  • ! J.!H.!Kennedy,!“Photooxidation!of!Water!at!αDFe2O3!Electrodes,”!Journal*of*The* Electrochemical*Society,!vol.!125,!no.!5,!p.!709,!1978.!
  • ! J.!F.!Wager,!“Applied!physics.!Transparent!electronics.,”!Science,!vol.!300,!no.! 5623,!pp.!1245–1246,!2003.!
  • ! J.!E.!Barton,!C.!L.!Stender,!P.!Li!and!T.!W.!Odom,!“Structural!control!of!anodized! tantalum!oxide!nanotubes,”!J.*Mater.*Chem.,!vol.!19,!p.!4896,!2009.!
  • ! J.!D.!Bernal,!“The!Oxides!and!Hydroxides!of!Iron!and!Their!Structural!InterD Relationships,”!Clay*Minerals,!vol.!4,!no.!21.!pp.!15–30,!1959.!
  • ! J.!Choi,!J.!H.!Lim,!S.!C.!Lee,!J.!H.!Chang,!K.!J.!Kim!and!M.!A.!Cho,!“Porous!niobium! oxide!films!prepared!by!anodization!in!HF/H3PO4,”!Electrochim.*Acta,!vol.!51,! no.!25,!pp.!5502–5507,!2006.!
  • ! J.!C.!Piuppe,!Galvanotechnik,!vol.!95,!pp.!2908–2915,!2004.! Controlled!Anodization!for!the!Synthesis!of!Smooth!Nanoporous!Tin!Oxide!Films!
  • ! J.!Besenhard,!M.!Hess!and!P.!Komenda,!“Dimensionally!stable!LiDalloy! electrodes!for!secondary!batteries,”!Solid*State*Ionics,!vol.!40–41,!pp.!525–529,! 1990.! Synthesis!and!Characterization!of!Carbon!Coated!SpongeDlike!Tin!Oxide!Films!and! Their!Application!as!Electrode!Materials!in!Lithium!Ion!Batteries!
  • ! I.!T.!Weber,!A.!Valentini,!L.!F.!D.!Probst,!E.!Longo!and!E.!R.!Leite,!“Catalytic! activity!of!nanometric!pure!and!rare!earthDdoped!SnO2!samples,”!Mater.*Lett.,! vol.!62,!no.!10–11,!pp.!1677–1680,!2008.!
  • ! I.!T.!Lucas,!J.!Syzdek!and!R.!Kostecki,!“Interfacial!processes!at!singleDcrystal!βD Sn!electrodes!in!organic!carbonate!electrolytes,”!Electrochem.*commun.,!vol.!13,! pp.!1271–1275,!2011.!!
  • ! I.!Sieber,!B.!Kannan!and!P.!Schmuki,!“SelfDAssembled!Porous!Tantalum!Oxide! Prepared!in!H2SO4/HF!Electrolytes,”!Electrochemical*and*Solid8State*Letters,! vol.!8,!no.!3,!p.!J10,!2005.!
  • ! I.!P.!Parkin!and!R.!G.!Palgrave,!“SelfDcleaning!coatings,”!J.*Mater.*Chem.,!vol.!15,! pp.!1689D1695,!2005.!
  • ! I.!P.!Parkin!and!R.!G.!Palgrave,!“SelfDcleaning!coatings,”!2005.!
  • ! I.!K.!Konstantinou!and!T.!A.!Albanis,!“TiO2Dassisted!photocatalytic!degradation! of!azo!dyes!in!aqueous!solution:!Kinetic!and!mechanistic!investigations:!A! review,”!Appl.*Catal.*B*Environ.,!vol.!49,!no.!1,!pp.!1–14,!2004.!
  • ! I.!Epelboin,!“ ber!den!Mechanismus!des!Elektropolierens,”!Zeitschrift*der* Elektrochemie,*Berichte*der*Bunsengesellschaft*f r*Phys.*Chemie,!vol.!62,!pp.! 813–818,!1958.!
  • ! I.!Cesar,!A.!Kay,!J.!A.!G.!Martinez,!and!M.!Gr tzel,!“Translucent!thin!film!Fe2O3! photoanodes!for!efficient!water!splitting!by!sunlight:!NanostructureDdirecting! effect!of!SiDdoping,”!J.*Am.*Chem.*Soc.,!vol.!128,!no.!14,!pp.!4582–4583,!2006.!
  • ! I.!A.!Courtney,!“Electrochemical!and!In!Situ!XDRay!Diffraction!Studies!of!the! Reaction!of!Lithium!with!Tin!Oxide!Composites,”!Journal*of*The*Electrochemical* Society,!vol.!144,!no.!6,!p.!2045,!1997.!
  • ! H.DC.!Shin,!J.!Dong!and!M.!Liu,!“Porous!Tin!Oxides!Prepared!Using!an!Anodic! Oxidation!Process,”!Adv.*Mater.,!vol.!16,!no.!3,!pp.!237–240,!2004.!
  • ! H.!Zhang,!C.!Hu,!J.!Xu,!B.!Wan,!K.!Zhang!and!X.!Li,!“SnO2!Nanorods!for!Light! Sensor!and!UV!Detector,”!Sens.*Lett.,!vol.!9,!no.!5,!pp.!1643–1648,!2011.!
  • ! H.!Viirola!and!L.!Niinist ,!“Controlled!growth!of!antimonyDdoped!tin!dioxide! thin!films!by!atomic!layer!epitaxy,”!Thin*Solid*Films,!vol.!251,!no.!2,!pp.!127– 135,!1994.!
  • ! H.!Tsuchiya,!J.!M.!MacAk,!L.!Taveira!and!P.!Schmuki,!“Fabrication!and! characterization!of!smooth!high!aspect!ratio!zirconia!nanotubes,”!Chem.*Phys.* Lett.,!vol.!410,!no.!4–6,!pp.!188–191,!2005.!
  • ! H.!Rehm!and!F.!Hammar,!Biochemie*light,!Frankfurt:!Verlag!Harri!Deutsch,! 2011.!
  • ! H.!Masuda!and!K.!Fukuda,!“Ordered!metal!nanohole!arrays!made!by!a!twoDstep! replication!of!honeycomb!structures!of!anodic!alumina.,”!Science,!vol.!268,!no.! 5216,!pp.!1466–1468,!1995.!
  • ! H.!Mark!and!M.!Polanyi,!“Die!Gitterstruktur,!Gleitrichtungen!und!Gleitebenen! des!wei en!Zinns,”!Zeitschrift*f r*Phys.,!vol.!18,!no.!1,!pp.!75–96,!1923.!
  • ! H.!Li!and!H.!Zhou,!“Enhancing!the!performances!of!LiDion!batteries!by!carbonD coating:!present!and!future,”!Chemical*Communications,!vol.!48,!no.!9,!p.!1201,! 2012.!
  • ! H.!J.!Snaith!and!C.!Ducati,!“SnO2DBased!dyeDsensitized!hybrid!solar!cells! exhibiting!near!unity!absorbed!photonDtoDelectron!conversion!efficiency,”!Nano* Lett.,!vol.!10,!no.!4,!pp.!1259–1265,!2010.!
  • ! H.!Habazaki,!K.!Fushimi,!K.!Shimizu,!P.!Skeldon!and!G.!E.!Thompson,!“Fast! migration!of!fluoride!ions!in!growing!anodic!titanium!oxide,”!Electrochem.* commun.,!vol.!9,!no.!5,!pp.!1222–1227,!2007.!
  • ! H.!E.!Prakasam,!O.!K.!Varghese,!M.!Paulose,!G.!K.!Mor!and!C.!A.!Grimes,! “Synthesis!and!photoelectrochemical!properties!of!nanoporous!iron!(III)!oxide! by!potentiostatic!anodization,”!Nanotechnology,!vol.!17,!pp.!4285–4291,!2006.!
  • ! G.!Janderg!and!E.!Blasius,!Lehrbuch*der*pr parativen*anorganischen*Chemie,! Stuttgart:!S.!Hirzel!Verlag,!1970.!
  • ! G.!Federici,!B.!J.!Shaw!and!R.!D.!Handy,!“Toxicity!of!titanium!dioxide! nanoparticles!to!rainbow!trout!(Oncorhynchus!mykiss):!Gill!injury,!oxidative! stress,!and!other!physiological!effects,”!Aquat.*Toxicol.,!vol.!84,!no.!4,!pp.!415– 430,!2007.!
  • ! G.!F.!Ortiz,!P.!Lavela,!P.!Knauth,!T.!Djenizian,!R.!Alcántara!and!J.!L.!Tirado,!“TinD Based!composite!Materials!Fabricated!by!Anodic!Oxidation!for!the!Negative! Electrode!of!LiDIon!Batteries,”!Journal*of*The*Electrochemical*Society,!vol.!158,! no.!10,!p.!A1094,!2011.!
  • ! F.!Yang!and!S.!R.!Forrest,!“Organic!Solar!Cells!Using!Transparent!SnO2DF! Anodes,”!Adv.*Mater.,!vol.!18,!no.!15,!pp.!2018–2022,!2006.!
  • ! F.!Li,!L.!Zhang!and!R.!Metzger,!“On!the!growth!of!highly!ordered!pores!in! anodized!aluminum!oxide,”!Chem.*Mater.,!vol.!10,!no.!28,!pp.!2470–2480,!1998.!
  • ! F.!Keller,!M.!S.!Hunter!and!D.!L.!Robinson,!“Structural!Features!of!Oxide! Coatings!on!Aluminum,”!Journal*of*The*Electrochemical*Society,!vol.!100,!no.!9,! p.!411,!1953.!
  • ! E.!Y.!Krysanova,!T.!B.!Demidova,!L.!A.!Pel’gunova,!S.!M.!Badalyan,!M.!N.! Rumyantseva!and!A.!M.!Gas’kov,!“Effect!of!hydrated!tin!dioxide!(SnO2!x!xH2O)! nanoparticles!on!guppy!(Poecilia!reticulata!Peters,!1860),”!Dokl.*Biol.*Sci.,!vol.! 426,!pp.!288–289,!2009.!
  • ! E.!R.!Leite,!I.!T.!Weber,!E.!Longo!and!J.!A.!Varela,!“A!New!Method!to!Control! Particle!Size!and!Particle!Size!Distribution!of!SnO2!Nanoparticles!for!Gas! Sensor!Applications,”!Adv.*Mater.*Commun.,!no.!13,!pp.!965–968,!2000.! Application!of!SelfDOrganizing!Arrays!of!SnO2!Microplates!with!Enhanced! Photocatalytic!and!Antimicrobial!Properties!in!Comparison!to!SpongeDlike!SnOx!
  • ! E.!R.!Leite,!I.!T.!Weber,!E.!Longo!and!J.!A.!Varela,!“A!New!Method!to!Control! Particle!Size!and!Particle!Size!Distribution!of!SnO2!Nanoparticles!for!Gas! Sensor!Applications,”!Adv.*Mater.*Commun.,!no.!13,!pp.!965–968,!2000.!
  • ! E.!Peled,!“The!Electrochemical!Behavior!of!Alkali!and!Alkaline!Earth!Metals!in! Nonaqueous!Battery!Systems—The!Solid!Electrolyte!Interphase!Model,”! Journal*of*The*Electrochemical*Society,!vol.!126,!no.!12,!p.!2047,!1979.!
  • ! D.!Rai,!M.!Yui,!H.!T.!Schaef!and!A.!Kitamura,!“Thermodynamic!model!for! SnO2(cr)!and!SnO2(am)!solubility!in!the!aqueous!Na+DH+DOHDDClDDH2O! system,”!J.*Solution*Chem.,!vol.!40,!no.!7,!pp.!1155–1172,!2011.!
  • ! D.!M.!Piper,!T.!A.!Yersak,!S.!B.!Son,!S.!C.!Kim,!C.!S.!Kang,!K.!H.!Oh,!C.!Ban,!A.!C.! Dillon!and!S.!H.!Lee,!“Conformal!coatings!of!cyclizedDPAN!for!mechanically! resilient!Si!nanoDcomposite!anodes,”!Adv.*Energy*Mater.,!vol.!3,!no.!6,!pp.!697– 702,!2013.! Synthesis!and!Characterization!of!Carbon!Coated!SpongeDlike!Tin!Oxide!Films!and! Their!Application!as!Electrode!Materials!in!Lithium!Ion!Batteries!
  • ! D.!M.!Mukhamedshina,!K.!a.!Mit,!N.!B.!Beisenkhanov,!E.!a.!Dmitriyeva,!and!I.!V.! Valitova,!“Influence!of!plasma!treatments!on!the!microstructure!and! electrophysical!properties!of!SnOx!thin!films!synthesized!by!magnetron! sputtering!and!solDgel!technique,”!J.*Mater.*Sci.*Mater.*Electron.,!vol.!19,!pp.!382– 387,!2008.!
  • ! D.!Larcher,!S.!Beattie,!M.!Morcrette,!K.!Edstr m,!J.DC.!Jumas!and!J.DM.!Tarascon,! “Recent!findings!and!prospects!in!the!field!of!pure!metals!as!negative! electrodes!for!LiDion!batteries,”!Journal*of*Materials*Chemistry,!vol.!17,!no.!36,!p.! 3759,!2007.!
  • ! D.!E.!Bergbreiter,!P.!L.!Osburn,!and!C.!Li,!“Soluble!polymerDsupported!catalysts! containing!azo!dyes,”!Org.*Lett.,!vol.!4,!no.!5,!pp.!737–740,!2002.!
  • ! D.!Bresser,!B.!Oschmann,!M.!N.!Tahir,!F.!Mueller,!I.!Lieberwirth,!W.!Tremel,!R.! Zentel!and!S.!Passerini,!“CarbonDCoated!Anatase!TiO2!Nanotubes!for!LiD!and!NaD Ion!Anodes,”!vol.!162,!no.!2,!pp.!A3013–A3020,!2015.!
  • ! D.!B.!Warheit,!R.!A.!Hoke,!C.!Finlay,!E.!M.!Donner,!K.!L.!Reed!and!C.!M.!Sayes,! “Development!of!a!base!set!of!toxicity!tests!using!ultrafine!TiO2!particles!as!a! component!of!nanoparticle!risk!management,”!Toxicol.*Lett.,!vol.!171,!no.!3,!pp.! 99–110,!2007.!
  • ! C.!Wang,!G.!Du,!K.!St hl,!H.!Huang,!Y.!Zhong!and!J.!Z.!Jiang,!“Ultrathin!SnO2! nanosheets:!Oriented!attachment!mechanism,!nonstochiometric!defects,!and! enhanced!lithiumDion!battery!performances,”!J.*Phys.*Chem.*C,!vol.!116,!no.!6,!pp.! 4000–4011,!2012.!
  • ! C.!Wang,!B.DQ.!Xu,!X.!Wang!and!J.!Zhao,!“Preparation!and!photocatalytic!activity! of!ZnO/TiO2/SnO2!mixture,”!Journal*of*Solid*State*Chemistry,!vol.!178,!no.!11,! pp.!3500–3506,!2005.!
  • ! C.!Santato,!M.!Odziemkowski,!M.!Ulmann!and!J.!Augustynski,! “Crystallographically!oriented!mesoporous!WO3!films:!Synthesis,! characterization,!and!applications,”!J.*Am.*Chem.*Soc.,!vol.!123,!no.!43,!pp.! 10639–10649,!2001.!
  • ! C.!Mahendiran,!T.!Maiyalagan,!K.!Scott!and!A.!Gedanken,!“Synthesis!of!a!carbonD coated!NiO/MgO!core/shell!nanocomposite!as!a!Pd!electroDcatalyst!support!for! ethanol!oxidation,”!Mater.*Chem.*Phys.,!vol.!128,!no.!3,!pp.!341–347,!2011.!
  • ! C.!Jin,!T.!Yamazaki,!K.!Ito,!T.!Kikuta!and!N.!Nakatani,!“H2S!sensing!property!of! porous!SnO2!sputtered!films!coated!with!various!doping!films,”!Vacuum,!vol.! 80,!no.!7!SPEC.!ISS.,!pp.!723–725,!2006.! SelfDOrganized!Arrays!of!SnO2!Lamellae:!Synthesis!and!Growth!Mechanism!
  • ! C.!Jin,!T.!Yamazaki,!K.!Ito,!T.!Kikuta!and!N.!Nakatani,!“H2S!sensing!property!of! porous!SnO2!sputtered!films!coated!with!various!doping!films,”!Vacuum,!vol.! 80,!no.!7!SPEC.!ISS.,!pp.!723–725,!2006.!
  • ! C.!G.!Granqvist!and!A.!Hult ker,!“Transparent!and!conducting!ITO!films:!New! developments!and!applications,”!in!Thin*Solid*Films,!vol.!411,!no.!1,!pp.!1–5,! 2002.!
  • ! B.!Wang,!B.!Luo,!X.!Li!and!L.!Zhi,!“The!dimensionality!of!Sn!anodes!in!LiDion! batteries,”!Mater.*Today,!vol.!15,!no.!12,!pp.!544–552,!2012.!
  • ! B.!O’Regan!and!M.!Gr tzel,!“A!lowDcost,!highDefficiency!solar!cell!based!on!dyeD sensitized!colloidal!TiO2!films,”!Nature,!vol.!353,!no.!6346,!pp.!737–740,!1991.!
  • ! B.!Oschmann,!M.!N.!Tahir,!F.!Mueller,!D.!Bresser,!I.!Lieberwirth,!W.!Tremel,!S.! Passerini!and!R.!Zentel,!“Precursor!Polymers!for!the!Carbon!Coating!of! Au@ZnO!Multipods!for!Application!as!Active!Material!in!LithiumDIon!Batteries,”! Macromol.*Rapid*Commun.,!vol.!36,!no.!11,!pp.!1075D1082,!2015.!
  • ! B.!Oschmann,!D.!Bresser,!M.!N.!Tahir,!K.!Fischer,!W.!Tremel,!S.!Passerini!and!R.! Zentel,!“Polyacrylonitrile!block!copolymers!for!the!preparation!of!a!thin!carbon! coating!around!TiO2!nanorods!for!advanced!lithiumDion!batteries,”!Macromol.* Rapid*Commun.,!vol.!34,!no.!21,!pp.!1693–1700,!2013.!
  • ! B.!J.!Park,!H.!E.!Prakasam!and!C.!A.!Grimes,!“Fabrication!of!Iron!(III)!Oxide! Nanostructures!By!Potentiostatic!Anodization,”!EEREU*Annu.*Res.*J.*Electr.*Eng.* Res.*Exp.*Undergraduates,!vol.!III,!p.!117,!2005.!
  • ! B.!Esen,!T.!Yumak,!A.!Sinaǧ!and!T.!Yildiz,!“Investigation!of!photocatalytic!effect! of!SnO2!nanoparticles!synthesized!by!hydrothermal!method!on!the! decolorization!of!two!organic!dyes,”!Photochem.*Photobiol.,!vol.!87,!no.!2,!pp.! 267–274,!2011.!
  • ! A.!Y.!Jogalekar,!R.!G.!Jaiswal!and!R.!V.!Jayaram,!“Activity!of!modified!SnO2! catalysts!for!acidDcatalysed!reactions,”!J.*Chem.*Technol.*Biotechnol.,!vol.!71,!no.! 3,!pp.!234–240,!1998.!
  • ! A.!S.!Aric ,!P.!Bruce,!B.!Scrosati,!J.DM.!Tarascon!and!W.!van!Schalkwijk,! “Nanostructured!materials!for!advanced!energy!conversion!and!storage! devices.,”!Nat.*Mater.,!vol.!4,!no.!5,!pp.!366–377,!2005.!
  • ! A.!PalaciosDpadr s,!M.!Altomare,!K.!Lee!and!I.!D ezDp rez,!“Controlled!Thermal! Annealing!Tunes!the!Photoelectrochemical!Properties!of!Nanochanneled!TinD Oxide!Structures,”!ChemElectroChem,!vol.!1,!no.!7,!pp.!1133–1137,!2014.!
  • ! A.!PalaciosDPadr s,!M.!Altomare,!A.!Tighineanu,!R.!Kirchgeorg,!N.!K.!Shrestha,!I.! D ezDP rez,!F.!CaballeroDBriones,!F.!Sanz!and!P.!Schmuki,!“Growth!of!ordered! anodic!SnO2!nanochannel!layers!and!their!use!for!H2!gas!sensing,”!J.*Mater.* Chem.*A,!vol.!2,!p.!915,!2014.!
  • ! A.!Moretti,!G.!T.!Kim,!D.!Bresser,!K.!Renger,!E.!Paillard,!R.!Marassi,!M.!Winter!and! S.!Passerini,!“Investigation!of!different!binding!agents!for!nanocrystalline! anatase!TiO2!anodes!and!its!application!in!a!novel,!green!lithiumDion!battery,”!J.* Power*Sources,!vol.!221,!pp.!419–426,!2013.!
  • ! A.!Mao,!N.DG.!Park,!G.!Y.!Han!and!J.!H.!Park,!“Controlled!growth!of!vertically! oriented!hematite/Pt!composite!nanorod!arrays:!use!for!photoelectrochemical! water!splitting.,”!Nanotechnology,!vol.!22,!no.!17,!p.!175703,!2011.!
  • ! A.!L.!Linsebigler,!A.!L.!Linsebigler,!J.!T.!Yates!Jr,!G.!Lu,!G.!Lu!and!J.!T.!Yates,! “Photocatalysis!on!TiO2!Surfaces:!Principles,!Mechanisms,!and!Selected! Results,”!Chem.*Rev.,!vol.!95,!no.!3,!pp.!735–758,!1995.!
  • ! A.!Kolmakov,!Y.!Zhang,!G.!Cheng!and!M.!Moskovits,!“Detection!of!CO!and!O2! using!tin!oxide!nanowire!sensors,”!Adv.*Mater.,!vol.!15,!no.!12,!pp.!997–1000,! 2003.!
  • ! A.!KleimanDShwarsctein,!Y.!S.!Hu,!A.!J.!Forman,!G.!D.!Stucky,!and!E.!W.! McFarland,!“Electrodeposition!of αDFe2O3!doped!with!Mo!or!Cr!as!photoanodes! for!photocatalytic!water!splitting,”!J.*Phys.*Chem.*C,!vol.!112,!no.!40,!pp.!15900– 15907,!2008.!
  • ! A.!KleimanDShwarsctein,!M.!N.!Huda,!A.!Walsh,!Y.!Yan,!G.!D.!Stuckyst,!Y.!S.!Hu,!M.! M.!AlDJassim!and!E.!W.!McMland,!“Electrodeposited!aluminumDdoped αDFe2O3! photoelectrodes:!Experiment!and!theory,”!Chem.*Mater.,!vol.!22,!no.!2,!pp.!510– 517,!2010.!
  • ! A.!He,!Q.!Liu,!and!D.!G.!Ivey,!“Electrodeposition!of!tin:!A!simple!approach,”!J.* Mater.*Sci.*Mater.*Electron.,!vol.!19,!pp.!553–562,!2008.!
  • ! A.!Ghicov!and!P.!Schmuki,!“SelfDordering!electrochemistry:!a!review!on!growth! and!functionality!of!TiO2!nanotubes!and!other!selfDaligned!MO(x)!structures.,”! Chem.*Commun.*(Camb.),!pp.!2791–2808,!2009.!
  • ! A.!G.!Joly,!J.!R.!Williams,!S.!A.!Chambers,!G.!Xiong,!W.!P.!Hess!and!D.!M.!Laman,! “Carrier!dynamics!in!αDFe2O3!(0001)!thin!films!and!single!crystals!probed!by! femtosecond!transient!absorption!and!reflectivity,”!J.*Appl.*Phys.,!vol.!99,!no.!5,! 2006.!
  • ! A.!G ntherschulze!and!H.!Betz,!Elektrolytkondensatoren.!Berlin:!M.!Krayn! Verlag,!1937.!
  • ! A.!Fujishima,!X.!Zhang!and!D.!A.!Tryk,!“TiO2!photocatalysis!and!related!surface! phenomena,”!Surface*Science*Reports,!vol.!63,!no.!12,!pp.!515–582,!2008.!
  • ! A.!Fujishima!and!K.!Honda,!“Electrochemical!photolysis!of!water!at!a! semiconductor!electrode.,”!Nature,!vol.!238,!no.!5358,!pp.!37–38,!1972.!
  • ! A.!Fujishima!and!D.!Kagaku,!“SelfDcleaning!effect!using!TiO2!photocatalyst,”! Electrochemistry,!vol.!64,!pp.!1052–1055,!1996.!
  • ! A.!F.!Hollemann,!E.!Wiberg!and!N.!Wiberg,!Lehrbuch*der*Anorganischen*Chemie* (in*German),!1985.!
  • ! A.!Duret!and!M.!Gr tzel,!“Visible!lightDinduced!water!oxidation!on!mesoscopic! alphaDFe2O3!films!made!by!ultrasonic!spray!pyrolysis.,”!J.*Phys.*Chem.*B,!vol.! 109,!no.!36,!pp.!17184–17191,!2005.!
  • ! A.!C.!Ferrari!and!J.!Robertson,!“Raman!spectroscopy!of!amorphous,! nanostructured,!diamondDlike!carbon!and!nanodiamond,”!Philos.*Trans.*A.*Math.* Phys.*Eng.*Sci.,!vol.!362,!no.!1824,!pp.!2477–2512,!2004.!
  • ! A.!Birkel,!“Tin!(IV)!Oxide!Nanostructures:!Controlled!Synthesis,!Properties!and! Applications!in!DysDSensitized!Solar!Cells,”!Johannes!GutenbergDUniversity! Mainz,!2010.!
  • ! A.!Birkel,!Y.DG.!Lee,!D.!Koll,!X.!Van!Meerbeek,!S.!Frank,!M.!J.!Choi,!Y.!S.!Kang,!K.! Char!and!W.!Tremel,!“Highly!efficient!and!stable!dyeDsensitized!solar!cells! based!on!SnO2!nanocrystals!prepared!by!microwaveDassisted!synthesis,”! Energy*&*Environmental*Science,!vol.!5,!no.!1,!p.!5392,!2012.!