Warianty tytułu
Zastosowanie nanoczasteczek polprzewodnikowych w energetyce
Języki publikacji
Abstrakty
Wydawca
Rocznik
Tom
Opis fizyczny
p.284-293,fig.,ref.
Twórcy
autor
- Bohdan Dobrzansky Institute of Agrophysics, Polish Academy of Sciences, Doswiadczalna 4, 20-290 Lublin, Poland
autor
Bibliografia
- Arnao Y., Komori T.: "Dye-sensitized solar cell using a Ti02 nanocrystalline film electrode modified by an aluminium phthalocyanine and myristic acidcoadsorption layer" - Langmuir 200 3, 19, 8872.
- Dimitrijevic N.M., Saponjic Z.V., Bartels D.M., Thurnauer M.C, Tiede D.M, RajhT.: "Revealing the nature of trapping sites in nanocrystalline titanium dbxide by selective surface modification" -J. Phys. Chem. В 2003,107, 7368.
- Frei H., Filzmaurice D.J., Grätzel M.: "Surface chelatton of semiconductors and interfacial electiontransfer" -Langmuir 1990, 6, 198.
- Ghosh H.N., AsburyJ.B., Weng Y., Lian Т.: 'Interfacial election transfer between Fe(II)(CN)64- and Ti02 nano partie les: Direct electron injection and nonexponential recombinatbn" - J. Phys. Chem. В 1998,102, 10208. Grätzel M.: "Photoelectrochemical cells"-Nature 2001, 414,338.
- Gregg B.A.: "Excitonsolar cells"-J. Phys. Chem. В 2003,107, 4688.
- Hagfeldt A., Gralzel M.: „Light-induced redox reactions in nanocrystalline systems" - Chem. Rev. 1995, 95,49.
- Hannapel Т., Burfeindt В., Storck W.: „Measurement of ultrafast photoinduced election transfer from chemically anchored Ru-dye molecules into empty electronic states in a colbidal ana-taseTiCQ film"-J. Phys. Chem. В 1997,101, 6799.
- Нага К., Sato Т., Katoh R., Furube A., Ohga Y., Shinpo A., Suga S., Sayama K., Sugihara H., Агака\та H.: "Ivblecular design of coumann dyes for efficient dye-sensitized solar cells" -J. Phys. Chem. В 2003,107, 597.
- Hara K., Dan-oh Y., Kasada C., Ohga Y, Shinpo A., Suga S., Sayama K., Arakawa H.: "Effect of additives on the photovoltaic performance of coumann-dye-sensitized nanocrystalline TiCQ solar cells" -Langmuir 2004, 20, 4205.
- Herman J.-M.: "Heterogeneous photocatalysis: fundamentals and applications to the removal of various types of aqueous pollutants" - Catalysis Today 1999, 53,115.
- Huber R., Sporlein S., Moser J.E., Grätzel M., Wachtveitl J.: "The role of surface states in the ultrafast photoinduced electron transfer from sensitizing dye molecules to semiconductor colloids" - J. Phys. Chem. В 2000, 104, 8995.
- Kamat P.V.: "Meeting the clean energy demand: Nanostructure architectures for solar energy соnversation" - J. Phys. Chem. С 2007, 111,2834.
- Kay A., Grätzel M: Artificial photosynthesis. 1. Photosensitization of Ti02 solar cells with chlorophyll derivatives and related natural porhyrins" - J. Phys. Chem. 1993, 97, 6272.
- Khoudiakov M., Parise A.R., Brurischwig B.S.: „Interfacial electron transfer in FeII (CN)64- sensitised Ti02 nanoparticles: A study of direct charge injection by electroabsorption spectroscopy"-JACS 2003, 125,4037.
- Kommami H., Murakami S., Kato J., KeraY., OhtaniB.: "Correlation between some physical properties of titanium dioxide particles and their photocatalytic activity for some probe reactions in aqueous systems" - J. Phys. Chem. В 2002,106, 10501.
- Matylitsky V.V., Lenz M.O., Wachtveitl J.: "Observation of pH-dependent back electron transfer dynamics in alizarin/Ti02 adsorbates: Importance of trap states" - J. Phys. Chem. В 2006, 110, 8372.
- Mills A., Le Hunte S.: "An overview of semiconductor photocatalysis" - J. Photochem. And Photobiol. A 1997,108, 1.
- Nazeeruddin M.K., Kay A., Rodicio I., Humphry-Baker R., Müller E., Liska P., Vlachopoulos N., Grätzel M: "Conversion of light to electricityby cis-X2Bis(2,2'-bipirydyi-4,4'-dicaiboxyl-ate)rutheriium(II) charge transfer sensitizers (X= C1-, Br-, I-, CN- andSCN-) onnanocrystal-lrne Ti02 electrodes" - JACS 1993, 115, 6382.
- Nishimura S. Abrains N., Lewis B.A., Halaoui L.I., Malbuk Т.Е., Benkstein K.D., van de Lagemaat J., FrarikA.J.: "Standing wave enhancement of re dabsorbance ardphotocurrentindye-sensi-tized titanium dioxide photoelectrodes coupled to photonic crystals" - JACS 2003,125, 6306.
- Pan J., Beriko G., Xu, Y., Pascher Т., Su L., Sundström V., Polivka Т.: 'Thotoinduced electron transfer between a caroterioid and Ti02 nanoparticle" - JACS 2002,124, 13949.
- Persson P, Bergström R., LunellS.: "Quantum chemical study of photoinjection processes indye-sensitizedTi02 nanoparticles" - J. Phys. Chem. В 2000,104, 10348.
- Rajh Т., Nedeljkovic J.M, Chen L.X., Poluektov O., Thumauer M.C.: "Improving optical and charge separation properties of nanocrystalline Ti02 by surface modification with vitamin C" - J. Phys. Chem. В 1999, 103, 3515.
- Rajh Т., Chen L.X., Lukas К., Liu Т., Thumauer M.C., Tiede D.M.: "Surface restructuring of nanoparticles: An efficient route for Hgand-metal oxide crosstalk" - J. Phys. Chem. В 2002, 106, 10543.
- Ramakrishna G., Singh A.K., Pálit D.K., Ghosh H.N.: "Dynamics of interfacial electron transfer from photoexcited quinizarin (Qn) into the conduction band of Ti02 and surface states of Zi02 nanoparticles"-J. Phys. Chem. В 2004,108,4775.
- Ramakrishna G., Jose D.A., Kumar D.K., Das A., Pálit D.K., Ghosh H.N.: "Strongly coupled ruthe-niurn-polipyridyi complexes for efficient electron injection in dye-sensitized semiconductor nanoparticles" - J. Phys. Chem. В 2005, 109,15445.
- Rarnakrishna G., VemiaS., Jose D.A., Kumar D.K., Das A., Pálit D.K., Ghosh H.N.: "Interfacial electron transfer between the photoexcited porphyrin molecule andTiCQ nano particles: Effect of catecholate binding" — J. Phys. Chem. В 2006,110, 9012.
- Redfem PC., Zapol P., Curtiss, LA., RajhT., Thumauer MC.: "Computational studies of catechol and water interactions with titanium oxide nano partie les" - J. Phys. Chem. В 2003, 107, 11419.
- Rego L.G.C., Batista V.S.: "Quantum dynamics simulations of interfacial electron transfer in sensitized ТЮ2 semiconductor"- JACS 2003, 125,7989.
- Schnadt J., Briihwiler B.A., Patthey L., O'Shea J.N., Södergren S., Odelius M., Ahuja R., Karis O., Bässler M, Persson P., Siegbahn H., Lunęli S., MartenssonN.: "Experimental evidence for sub-3-fs charge transfer from an aromatic adsoibate to a semiconductor" - Nature 2002, 418, 620.
- Shoute L.C.T., Loppnow G.R.: "Excited-state dynamics of alizarin-sensitized Ti02 nanoparticles from resonance Raman spectroscopy' - J. Chem. Phys. 2002,117, 842.
- Tae A.L., Lee S.H., Lee J.K., Yoo S.S., Kang E.J., YoonK.B.: „A strategy to increase the efficiency of the dye-sensitized Ti02 solar cells operated by photoexcitation of dye-to-Ti02 charge-transfer bands" - J. Phys. Chem. В 2005, 109, 22513.
- Walters К .A., Gaal D.A., Hupp J.T.: "Interfacial charge transfer and colloidal semiconductor dye-sen sitization: Mechanism assessment via Stark emission spectroscopy'' - J. Phys. Chem. В 2002,106, 5139.
- Wang Z.-S., Нага К., Dan-oh Y., Kasada C., Shinpo A., Suga S., Arakaw* H., Sugihara H.: "Photophysical and (photo)e lec troche mical praperties of a coumarin dye" - J. Phys. Chem. В 2005, 109,3907.
- Wu Т., Liu G., Zhao J., Hidaka H., Serpone N.: "Evidence for H202 generation during the Ti02-assisted photodegradation of dyes in aqueous dispersions under viable light illumination" - J. Phys. Chem. В 1999, 103, 4862.
- Xagas A.P., Bernard M.C.,Hugot-Le Goff A., Spyrellis N., Loizos Z., Falaras P.: 'Surface modification and photoserisitization of Ti02 nanocrystalline films with ascoibic acid"-J. Photochem. Photobiol. A 2000, 132,115.
- Yang M, Thompson D.W., Meyer G.J.: "Dual pathways for Ti02 sensitization by Na2[Fe(bpy) (CN)4]" -Inorg. Chem. 2000, 39, 3738.
- Zaban A., Zhang J., Diamant Y., Melemed O., Bisquert J.: "internal reference electrode in dye sensitized solar cells for three-electrode electrochemical characterization" - J. Phys. Chem. В 2003,107, 6022.
- Zhang Z., Wang C.-C., Zakaria R., Ying J.Y.: "Role of particle size in nanocrystalline Ti02-based photocatalysts" - J. Phys. Chem. В 1998,102, 10871.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-285e0d95-4ee5-4575-8e00-b44557406d1d