Szabó B E et al. Pulse Radiolysis Studies on [Fe(CN)6]4- - Br- - CN- system in Ethylene Glycol - Water. (1991) JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY- ARTICLES 0236-5731 147 2 215-224, 1274687
Journal Article/Article (Journal Article)/Scientific[1274687]
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    Journal Article[21791478] [Admin approved]
    Független, Idéző: 21791478, Kapcsolat: 21791478
  2. Esmaeilifar A et al. Synthesis methods of low-Pt-loading electrocatalysts for proton exchange membrane fuel cell systems. (2010) ENERGY 0360-5442 1873-6785 35 9 3941-3957
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    Független, Idéző: 21771737, Kapcsolat: 21771737
  3. Silva DF et al. PtRu/C electrocatalysts prepared using gamma-irradiation. (2007) JOURNAL OF POWER SOURCES 0378-7753 170 2 303-307
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    Független, Idéző: 21546645, Kapcsolat: 21546645
  4. Hofmann R. Using ammonia to inhibit…. (2000)
    Thesis/PhD (Thesis)/Scientific[21771736] [Admin approved]
    Független, Idéző: 21771736, Kapcsolat: 21771736
  5. Alberta R. No title. (1998)
    Miscellaneous[21771735] [Admin approved]
    Független, Idéző: 21771735, Kapcsolat: 21771735
  6. Chase MW. NIST-JANAF thermochemical tables for the bromine oxides. (1996) JOURNAL OF PHYSICAL AND CHEMICAL REFERENCE DATA 0047-2689 25 4 1069-1111
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Szabó-Bárdos E et al. Photocatalyic oxidation of oxalic acid enhanced by silver deposition on a TiO2 surface. (2003) JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY 1010-6030 1873-2666 154 195-201, 1274793
Journal Article/Article (Journal Article)/Scientific[1274793]
  1. Shyamala Ramakrishnappa et al. Surface plasmon resonance effect of Ag metallized SnO2 particles: Exploration of metal induced gap states and characteristic properties of Ohmic junction. (2020) SURFACE AND INTERFACE ANALYSIS 0142-2421 1096-9918 52 6 374-385
    Journal Article/Article (Journal Article)/Scientific[31437918] [Validated]
    Független, Idéző: 31437918, Kapcsolat: 29154433
  2. Deshpande B. D. et al. Nanoparticles aided AOP for degradation of p-nitro benzoic acid. (2020) MATERIALS TODAY: PROCEEDINGS 2214-7853 32 519-523
    Journal Article/Conference paper in journal (Journal Article)/Scientific[31707530] [Validated]
    Független, Idéző: 31707530, Kapcsolat: 29591029
  3. Naeem-ur-Rehman et al. Au/ZnO hybrid nanocomposites and their optical and photocatalytic properties. (2020) APPLIED PHYSICS A - MATERIALS SCIENCE AND PROCESSING 0947-8396 1432-0630 126 9
    Journal Article/Article (Journal Article)/Scientific[31707531] [Validated]
    Független, Idéző: 31707531, Kapcsolat: 29591030
  4. Avid Sara Parsaei. Tech Note: Removal of Heavy Metals by Photocatalyst. (2019) Rivista Ingegnería UC 1316-6832 26 3 378-385
    Journal Article/Article (Journal Article)/Scientific[31573391] [Validated]
    Független, Idéző: 31573391, Kapcsolat: 29407867
  5. Sutka Andris et al. Photocatalytic Nanoheterostructures and Chemically Bonded Junctions Made by Solution-Based Approaches. (2019) CRITICAL REVIEWS IN SOLID STATE AND MATERIALS SCIENCES 1040-8436 44 3 239-263
    Journal Article/Survey paper (Journal Article)/Scientific[31105793] [Validated]
    Független, Idéző: 31105793, Kapcsolat: 28712059
  6. Sharma Shuchi et al. Photocatalytic degradation in silver doped TiO2. (2019) SADHANA-ACADEMY PROCEEDINGS IN ENGINEERING SCIENCES 0256-2499 0973-7677 44 9
    Journal Article/Article (Journal Article)/Scientific[31105791] [Validated]
    Független, Idéző: 31105791, Kapcsolat: 28712057
  7. Ahmad Irshad. Inexpensive and quick photocatalytic activity of rare earth (Er, Yb) co-doped ZnO nanoparticles for degradation of methyl orange dye. (2019) SEPARATION AND PURIFICATION TECHNOLOGY 1383-5866 227
    Journal Article/Article (Journal Article)/Scientific[31105792] [Validated]
    Független, Idéző: 31105792, Kapcsolat: 28712058
  8. Merenda Andrea et al. Functional Nanoporous Titanium Dioxide for Separation Applications: Synthesis Routes and Properties to Performance Analysis. (2019) In: WATER SCARCITY AND WAYS TO REDUCE THE IMPACT: MANAGEMENT STRATEGIES AND TECHNOLOGIES FOR ZERO LIQUID DISCHARGE AND FUTURE SMART... pp. 151-186
    Chapter in Book/Scientific[30480738] [Validated]
    Független, Idéző: 30480738, Kapcsolat: 27911880
  9. Marquez O. Synthesis of Electrocatalysts for Electrochemistry in Energy. (2018) In: Advanced Solid Catalysts for Renewable Energy Production pp. 300-385
    Chapter in Book/Chapter (Chapter in Book)/Scientific[27248196] [Approved]
    Független, Idéző: 27248196, Kapcsolat: 27248196
  10. Senthilraja A et al. Synthesis and characterization of bimetallic nanocomposite and its photocatalytic, antifungal and antibacterial activity. (2018) SEPARATION AND PURIFICATION TECHNOLOGY 1383-5866 202 31 August 373-384
    Journal Article/Article (Journal Article)/Scientific[27362709] [Approved]
    Független, Idéző: 27362709, Kapcsolat: 27362709
  11. Ravindranath Rini et al. Smart app-based on-field colorimetric quantification of mercury via analyte-induced enhancement of the photocatalytic activity of TiO2-Au nanospheres. (2018) ANALYTICAL AND BIOANALYTICAL CHEMISTRY 1618-2642 1618-2650 410 18 4555-4564
    Journal Article/Article (Journal Article)/Scientific[27603407] [Validated]
    Független, Idéző: 27603407, Kapcsolat: 27603407
  12. Kumar A et al. Nanotechnology: Key for Sustainable Future. (2018) In: Nanotechnology in Environmental Science pp. 759-804
    Chapter in Book/Study (Chapter in Book)/Scientific[27362763] [Approved]
    Független, Idéző: 27362763, Kapcsolat: 27362763
  13. Radhakrishnan B. Recent Developments on Photocatalytic water Splitting using Semiconductors for Hydrogen Production. (2017) International Journal of Advance Research, Ideas and Innovation in Technology 3 6 1265-1270
    Journal Article/Article (Journal Article)/Scientific[27248197] [Approved]
    Független, Idéző: 27248197, Kapcsolat: 27248197
  14. Thakur Samriti et al. Photo-oxidation kinetics of sugars having different molecular size and glycosidic linkages for their complete mineralization to subunits by bare/Ag-TiO2 under UV irradiation. (2017) JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENGINEERS 1876-1070 1876-1089 80 488-494
    Journal Article/Article (Journal Article)/Scientific[27107193] [Approved]
    Független, Idéző: 27107193, Kapcsolat: 27107193
  15. Bhatt MD et al. Nanomaterials for photocatalytic hydrogen production: from theoretical perspectives. (2017) RSC ADVANCES 2046-2069 7 55 34875-34885
    Journal Article/Scientific[27232595] [Approved]
    Független, Idéző: 27232595, Kapcsolat: 27248191
  16. Saqib Najm Us et al. Modifications of pure and Ag doped TiO2 by pre-sulphated and calcination temperature treatments. (2017) RESEARCH ON CHEMICAL INTERMEDIATES 0922-6168 1568-5675 43 11 6571-6588
    Journal Article/Article (Journal Article)/Scientific[27107194] [Approved]
    Független, Idéző: 27107194, Kapcsolat: 27107194
  17. Liu XS. Inorganic photochemical synthesis (chapter 6). (2017) In: Modern Inorganic Synthetic Chemistry (second edition) pp. 143-165
    Chapter in Book/Study (Chapter in Book)/Scientific[27248193] [Approved]
    Független, Idéző: 27248193, Kapcsolat: 27248193
  18. Devi LG et al. Influence of surface metallic silver deposit and surface fluorination on the photocatalytic activity of rutile TiO2 for the degradation of crystal violet a cationic dye under UV light irradiation. (2017) Materials Today Communications 2352-4928 10 1-13
    Journal Article/Article (Journal Article)/Scientific[27248187] [Approved]
    Független, Idéző: 27248187, Kapcsolat: 27248187
  19. Zhou Rui et al. Continuous Synthesis of Ag/TiO2 Nanoparticles with Enhanced Photocatalytic Activity by Pulsed Laser Ablation. (2017) JOURNAL OF NANOMATERIALS 1687-4110 1687-4129
    Journal Article/Article (Journal Article)/Scientific[27107195] [Approved]
    Független, Idéző: 27107195, Kapcsolat: 27107195
  20. Tseng Kuo-Hsiung et al. A Study of Photocatalysis of Methylene Blue of TiO2 Fabricated by Electric Spark Discharge Method. (2017) JOURNAL OF NANOMATERIALS 1687-4110 1687-4129
    Journal Article/Article (Journal Article)/Scientific[26942960] [Approved]
    Független, Idéző: 26942960, Kapcsolat: 26942960
  21. Vaithiyanathan R. Photocatalytic Decolourization of Reactive Dyes Using Silver Incorporated Titania Catalyst. (2016) MATERIALS TODAY: PROCEEDINGS 2214-7853 3 10 4226-4231
    Journal Article/Article (Journal Article)[27248184] [Approved]
    Független, Idéző: 27248184, Kapcsolat: 27248184
  22. Moneim Shimaa M et al. Novel application of metal-free graphitic carbon nitride (g-C3N4) in photocatalytic reduction-Recovery of silver ions. (2016) JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING 2213-3437 4 4 4165-4172
    Journal Article/Article (Journal Article)/Scientific[26369108] [Approved]
    Független, Idéző: 26369108, Kapcsolat: 26369108
  23. Rakibuddin M et al. Novel Ag deposited Nano Coordination Polymers Derived Porous SnO 2/NiO Heteronanostructure for Enhanced Photocatalytic Reduction of Cr (VI) under Visible Light. (2016) NEW JOURNAL OF CHEMISTRY 1144-0546 1369-9261 40 3385-3394
    Journal Article/Article (Journal Article)[27248168] [Approved]
    Független, Idéző: 27248168, Kapcsolat: 27248168
  24. Dhatshanamurthi P et al. Li and Ag Co-Doped ZnO Photocatalyst for Degradation of RO 4 Dye Under Solar Light Irradiation. (2016) JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 1533-4880 1533-4899 16 6 5913-5922
    Journal Article/Article (Journal Article)/Scientific[26193321] [Approved]
    Független, Idéző: 26193321, Kapcsolat: 26193321
  25. Zhang P et al. Influence of In 3+-doping and Ag 0-depositing on the visible-light-induced photocatalytic activity of TiO2. (2016) JOURNAL OF ALLOYS AND COMPOUNDS 0925-8388 673 15 July 405-410
    Journal Article/Article (Journal Article)[27248172] [Approved]
    Független, Idéző: 27248172, Kapcsolat: 27248172
  26. Kuo DH et al. From the fluorescent lamp-induced bactericidal performance of sputtered Ag/TiO 2 films to re-explore the photocatalytic mechanism. (2016) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 184 191-200
    Journal Article[27248165] [Approved]
    Független, Idéző: 27248165, Kapcsolat: 27248165
  27. Cui Entian et al. Facet-Dependent Activity of Pt Nanoparticles as Cocatalyst on TiO2 Photocatalyst for Dye-Sensitized Visible-Light Hydrogen Generation. (2016) JOURNAL OF NANOMATERIALS 1687-4110 1687-4129
    Journal Article/Article (Journal Article)/Scientific[26003161] [Approved]
    Független, Idéző: 26003161, Kapcsolat: 26003161
  28. Jabbari Vahid et al. Enhanced charge carrier efficiency and solar light-induced photocatalytic activity of TiO2 nanoparticles through doping of silver nanoclusters and C-N-S nonmetals. (2016) JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY 1226-086X 1876-794X 35 132-139
    Journal Article/Article (Journal Article)/Scientific[25687683] [Approved]
    Független, Idéző: 25687683, Kapcsolat: 25687683
  29. Devi LG et al. A review on plasmonic metal-TiO2 composite for generation, trapping, storing and dynamic vectorial transfer of photogenerated electrons across the Schottky junction in a Photocatalytic system. (2016) APPLIED SURFACE SCIENCE 0169-4332 1873-5584 360 601-622
    Journal Article/Survey paper (Journal Article)[27248161] [Approved]
    Független, Idéző: 27248161, Kapcsolat: 27248161
  30. De los Santos et al. Tm-doped TiO2 and Tm2Ti2O7 pyrochlore nanoparticles: enhancing the photocatalytic activity of rutile with a pyrochlore phase. (2015) BEILSTEIN JOURNAL OF NANOTECHNOLOGY 2190-4286 6 605-616
    Journal Article/Article (Journal Article)/Scientific[25687687] [Approved]
    Független, Idéző: 25687687, Kapcsolat: 25687687
  31. Elsellami Leila et al. Synthesis, characterization and photocatalytic activity of Li-, Cd-, and La-doped TiO2. (2015) MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING 1369-8001 36 103-114
    Journal Article/Article (Journal Article)/Scientific[25687685] [Approved]
    Független, Idéző: 25687685, Kapcsolat: 25687685
  32. Chamjangali M et al. Synthesis and application of multiple rods gold-zinc oxide nanostructures in the photocatalytic degradation of methyl orange. (2015) INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY 1735-1472 12 1 151-160
    Journal Article/Article (Journal Article)/Scientific[25687689] [Approved]
    Független, Idéző: 25687689, Kapcsolat: 25687689
  33. Lee Jong-Ho et al. Photocatalytic performance of graphene/Ag/TiO2 hybrid nanocomposites. (2015) CARBON LETTERS 1976-4251 2233-4998 16 4 247-254
    Journal Article/Article (Journal Article)/Scientific[25687684] [Approved]
    Független, Idéző: 25687684, Kapcsolat: 25687684
  34. Sakamoto Hirokatsu et al. Hot-Electron-Induced Highly Efficient O-2 Activation by Pt Nanoparticles Supported on Ta2O5 Driven by Visible Light. (2015) JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 0002-7863 1520-5126 137 29 9324-9332
    Journal Article/Article (Journal Article)/Scientific[25687686] [Approved]
    Független, Idéző: 25687686, Kapcsolat: 25687686
  35. Li Sa et al. Fabrication of porous silver/titania composite hollow spheres with enhanced photocatalytic performance. (2015) MATERIALS CHEMISTRY AND PHYSICS 0254-0584 149 1-6
    Journal Article/Article (Journal Article)/Scientific[25687688] [Approved]
    Független, Idéző: 25687688, Kapcsolat: 25687688
  36. Khan S. Enhancement of visible light photocatalytic activity of CdO modified ZnO nanohybrid particles. (2015) JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY B-BIOLOGY 1011-1344 1873-2682 142 1-7
    Journal Article/Article (Journal Article)/Scientific[25687690] [Approved]
    Független, Idéző: 25687690, Kapcsolat: 25687690
  37. Devi LG et al. Bulk and surface modification of TiO 2 with sulfur and silver: Synergetic effects of dual surface modification in the enhancement of photocatalytic activity. (2015) MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING 1369-8001 40 832-839
    Journal Article/Article (Journal Article)[27248185] [Approved]
    Független, Idéző: 27248185, Kapcsolat: 27248185
  38. Han C et al. UV–visible light-activated Ag-decorated, monodisperse TiO2 aggregates for treatment of the pharmaceutical oxytetracycline. (2014) ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH 0944-1344 1614-7499 21 20 11781-11793
    Journal Article/Article (Journal Article)/Scientific[24309958] [Approved]
    Független, Idéző: 24309958, Kapcsolat: 24309958
  39. Senthilraja A et al. Synthesis, characterization and catalytic activity of co-doped Ag–Au–ZnO for MB dye degradation under UV-A light. (2014) MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING 1369-8001 22 83-91
    Journal Article/Article (Journal Article)/Scientific[24309962] [Approved]
    Független, Idéző: 24309962, Kapcsolat: 24309962
  40. Nagaraj B et al. Silver metalized mixed phase manganese-doped titania: Variation of electric field and band bending within the space charge region with respect to the silver content. (2014) JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL 1381-1169 1873-314X 2468-8231 390 142-151
    Journal Article/Article (Journal Article)/Scientific[24309981] [Approved]
    Független, Idéző: 24309981, Kapcsolat: 24309981
  41. Tang B et al. Preparation of N-Doped Bi2WO6 Microspheres for Efficient Visible Light-Induced Photocatalysis. (2014) ACTA METALLURGICA SINICA ENGLISH LETTERS 1006-7191 27 1 124-130
    Journal Article/Article (Journal Article)/Scientific[24309960] [Approved]
    Független, Idéző: 24309960, Kapcsolat: 24309960
  42. Zhao F et al. Preparation and characterization of In2O3/ZnO heterostructured microbelts by sol–gel combined with electrospinning method. (2014) JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY 0928-0707 69 2 357-363
    Journal Article/Article (Journal Article)/Scientific[24309964] [Approved]
    Független, Idéző: 24309964, Kapcsolat: 24309964
  43. Kmetyko A et al. Photocatalytic H-2 Production Using Pt-TiO2 in the Presence of Oxalic Acid: Influence of the Noble Metal Size and the Carrier Gas Flow Rate. (2014) MATERIALS 1996-1944 7 10 7022-7038
    Journal Article/Article (Journal Article)/Scientific[2792466] [Validated]
    Független, Idéző: 2792466, Kapcsolat: 24309991
  44. Kmetyko Akos et al. Photocatalytic H-2 Evolution Using Different Commercial TiO2 Catalysts Deposited with Finely Size-Tailored Au Nanoparticles: Critical Dependence on Au Particle Size. (2014) MATERIALS 1996-1944 7 12 7615-7633
    Journal Article/Article (Journal Article)/Scientific[2823890] [Validated]
    Független, Idéző: 2823890, Kapcsolat: 24310005
  45. Khakpoor AA. Optical Properties Improvement TiO2 Thin Films with Adding the Au, Ag or Cu Nanoparticles. (2014) International Material Physics Journal 1 2 8-13
    Journal Article/Article (Journal Article)/Scientific[27248200] [Approved]
    Független, Idéző: 27248200, Kapcsolat: 27248200
  46. Devi LG et al. Disinfection of Escherichia Coli Gram Negative Bacteria Using Surface Modified TiO2: Optimization of Ag Metallization And Depiction of Charge Transfer Mechanism. (2014) PHOTOCHEMISTRY AND PHOTOBIOLOGY 0031-8655 1751-1097 90 5 1089-1098
    Journal Article/Article (Journal Article)/Scientific[24309987] [Approved]
    Független, Idéző: 24309987, Kapcsolat: 24309987
  47. Yuan SJ et al. All-Nanoparticle Self-assembly ZnO/TiO2 Heterojunction Thin Films with Remarkably Enhanced Photoelectrochemical Activity. (2014) ACS APPLIED MATERIALS & INTERFACES 1944-8244 1944-8252 6 8 5719-5725
    Journal Article/Article (Journal Article)/Scientific[24399114] [Approved]
    Független, Idéző: 24399114, Kapcsolat: 24309966
  48. Mahlamvana F et al. The impeding effect of dissolved oxygen on the photocatalytic reduction of [PdCln(H2O)4-n]2-n (n=0-4) complexes employing different TiO2 photocatalysts in the absence of an added sacrificial reducing agent. (2013) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 142-143 809-816
    Journal Article/Article (Journal Article)/Scientific[23288447] [Admin approved]
    Független, Idéző: 23288447, Kapcsolat: 23288447
  49. Mahlamvana F et al. The impeding effect of dissolved oxygen on the photocatalytic reduction of [PdCln(H2O)(4-n)](2-n) (n=0-4) complexes employing different TiO2 photocatalysts in the absence of an added sacrificial reducing agent. (2013) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 142 809-816
    Journal Article/Article (Journal Article)/Scientific[25687693] [Approved]
    Független, Idéző: 25687693, Kapcsolat: 25687693
  50. Disha R et al. Study on Rate of Decolorization of Textile Azo Dye Direct Red 5B by Recently Developed Photocatalyst. (2013) INTERNATIONAL JOURNAL OF SCIENTIFIC AND RESEARCH PUBLICATION 2250-3153 2250-3153 3 2 1-4
    Journal Article/Article (Journal Article)/Scientific[23288443] [Admin approved]
    Független, Idéző: 23288443, Kapcsolat: 23288443
  51. Badhwar N. PHOTOCHEMICAL FABRICATION OF TRANSITION METAL NANOPARTICLES USING CdS TEMPLATE AND THEIR CO-CATALYSIS EFFECTS FOR TiO2 PHOTOCATALYSIS. (2013) Int. J. Nanosci. 12 3
    Journal Article/Article (Journal Article)/Scientific[24308560] [Approved]
    Független, Idéző: 24308560, Kapcsolat: 24308560
  52. Khakpoor AA. Optical Properties Improvement TiO2 Thin Films with Adding the Au,Ag or Cu Nanoparticles. (2013) International Materials Physics Journal 1 2 8-13
    Journal Article/Article (Journal Article)/Scientific[24308564] [Approved]
    Független, Idéző: 24308564, Kapcsolat: 24308564
  53. Kong W. Microstructure and hydrogen production activity of Pt-TiO2 prepared by precipitation-photodeposition. (2013) Research Chemical Intermediates 39 4 1701-1710
    Journal Article/Article (Journal Article)/Scientific[23288445] [Admin approved]
    Független, Idéző: 23288445, Kapcsolat: 23288445
  54. Ramya S et al. Antibacterial studies on Eu-Ag codoped TiO2 surfaces. (2013) CERAMICS INTERNATIONAL 0272-8842 39 2 1695-1705
    Journal Article/Article (Journal Article)[23002496] [Admin approved]
    Független, Idéző: 23002496, Kapcsolat: 23002496
  55. Rossetti I. Advanced Oxides In Catalysis. (2013) Current Inorganic Chemistry 1877-9441 3 1 50-69
    Journal Article/Survey paper (Journal Article)/Scientific[24308577] [Approved]
    Független, Idéző: 24308577, Kapcsolat: 24308577
  56. Devi L et al. Synergistic effect of Ag deposition and nitrogen doping in TiO2 for the degradation of phenol under solar irradiation in presence of electron acceptor. (2012) CHEMICAL ENGINEERING JOURNAL 1385-8947 181-182 259-266
    Journal Article/Article (Journal Article)[23002446] [Admin approved]
    Független, Idéző: 23002446, Kapcsolat: 23002446
  57. Holdich R et al. Production and evaluation of floating photocatalytic composite particles formed using pickering emulsions and membrane emulsification. (2012) INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 0888-5885 1520-5045 51 38 12509-12516
    Journal Article/Article (Journal Article)[23002492] [Admin approved]
    Független, Idéző: 23002492, Kapcsolat: 23002492
  58. Arsana P. Photocatalytic activity under solar irradiation of silver and copper doped zincoxide: Photodeposition versus liquid impregnation methods. (2012) JOURNAL OF APPLIED SCIENCES 1812-5654 1812-5662 12 17 1809-1816
    Journal Article/Article (Journal Article)[23002487] [Admin approved]
    Független, Idéző: 23002487, Kapcsolat: 23002487
  59. Li L et al. Enhanced photocatalytic reduction of aqueous Pb(II) over Ag loaded TiO2 with formic acid as hole scavenger. (2012) JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH PART A-TOXIC/HAZARDOUS SUBSTANCES & ENVIRONMENTAL ENGINEERING 1093-4529 1532-4117 47 3 327-336
    Journal Article/Article (Journal Article)[23002461] [Admin approved]
    Független, Idéző: 23002461, Kapcsolat: 23002461
  60. Zhou Xuefeng et al. Enhanced electron transfer and silver-releasing suppression in Ag-AgBr/titanium-doped Al2O3 suspensions with visible-light irradiation. (2012) JOURNAL OF HAZARDOUS MATERIALS 0304-3894 219 276-282
    Journal Article/Article (Journal Article)/Scientific[25687694] [Approved]
    Független, Idéző: 25687694, Kapcsolat: 25687694
  61. Zhou X et al. Enhanced electron transfer and silver-releasing suppression in Ag-AgBr/titanium-doped Al 2O 3 suspensions with visible-light irradiation. (2012) JOURNAL OF HAZARDOUS MATERIALS 0304-3894 219-220 276-282
    Journal Article/Article (Journal Article)[23002462] [Admin approved]
    Független, Idéző: 23002462, Kapcsolat: 23002462
  62. Pulido Melián et al. Effect of deposition of silver on structural characteristics and photoactivity of TiO 2-based photocatalysts. (2012) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 127 112-120
    Journal Article/Article (Journal Article)[23002488] [Admin approved]
    Független, Idéző: 23002488, Kapcsolat: 23002488
  63. Vereb G et al. Comparative study on UV and visible light sensitive bare and doped titanium dioxide photocatalysts for the decomposition of environmental pollutants in water. (2012) APPLIED CATALYSIS A-GENERAL 0926-860X 1873-3875 417 26-36
    Journal Article/Article (Journal Article)/Scientific[1949268] [Validated]
    Független, Idéző: 1949268, Kapcsolat: 23002447
  64. Kim J et al. A facile, coverage controlled deposition of Au nanoparticles on ZnO nanorods by sonochemical reaction for enhancement of photocatalytic activity. (2012) JOURNAL OF NANOPARTICLE RESEARCH 1388-0764 1572-896X 14 8
    Journal Article/Article (Journal Article)[23002484] [Admin approved]
    Független, Idéző: 23002484, Kapcsolat: 23002484
  65. Liu Y et al. Synthesis and photoactivity of the highly efficient Ag species/TiO(2) nanoflakes photocatalysts. (2011) JOURNAL OF ALLOYS AND COMPOUNDS 0925-8388 509 16 5152-5158
    Journal Article[21534626] [Admin approved]
    Független, Idéző: 21534626, Kapcsolat: 21534626
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  70. Devi LG et al. Photocatalytic performance of silver TiO2: Role of electronic energy levels. (2011) APPLIED SURFACE SCIENCE 0169-4332 1873-5584 257 15 6821-6828
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  71. Sun Lanlan et al. Gold nanoparticles modified ZnO nanorods with improved photocatalytic activity. (2011) JOURNAL OF COLLOID AND INTERFACE SCIENCE 0021-9797 1095-7103 363 1 175-181
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  72. Xie Y et al. Enhanced photocatalytic activity of mesoporous S-N-codoped TiO2 loaded with Ag nanoparticles. (2011) SEMICONDUCTOR SCIENCE AND TECHNOLOGY 0268-1242 1361-6641 26 8
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  73. Zhang SS et al. Electrodeposition preparation of Ag loaded N-doped TiO(2) nanotube arrays with enhanced visible light photocatalytic performance. (2011) CATALYSIS COMMUNICATIONS 1566-7367 12 8 689-693
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  74. Henderson MA. A surface science perspective on TiO(2) photocatalysis. (2011) SURFACE SCIENCE REPORTS 0167-5729 66 6-7 185-297
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  75. Li Hong et al. TiO(2)-Ag Nanocomposites by Low-Temperature Sol-Gel Processing. (2010) JOURNAL OF THE AMERICAN CERAMIC SOCIETY 0002-7820 93 2 445-449
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  76. Tryba B. Photocatalytic and self-cleaning properties of ag-doped Tio2. (2010) THE OPEN MATERIALS SCIENCE JOURNAL 1874-088X 4 5-8
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  77. Hou L. Facile fabrication of taper-like BiVO4 nanorods with high photocatalytic property under sunlight irradiation. (2010) ADVANCED MATERIALS RESEARCH 1022-6680 1662-8985 96 87-92
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  78. Wu Yu-Qi. Fabrication of NiO Photocatalytic Active Center over TiO(2) and Photocatalytic Properties for H(2) Production. (2010) CHINESE JOURNAL OF INORGANIC CHEMISTRY 1001-4861 26 3 476-482
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  79. Devi LG et al. Enhanced photocatalytic activity of silver metallized TiO2 particles in the degradation of an azo dye methyl orange: Characterization and activity at different pH values. (2010) APPLIED SURFACE SCIENCE 0169-4332 1873-5584 256 10 3116-3121
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    Független, Idéző: 21018613, Kapcsolat: 20997652
  80. Kumar PSS et al. Visible light assisted photocatalytic degradation of acid red 88 using Au-ZnO nanophotocatalysts. (2009) WATER SCIENCE AND TECHNOLOGY 0273-1223 60 6 1589-1596
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  81. Rupa A et al. Titania and Noble Metals Deposited Titania Catalysts in the Photodegradation of Tartazine. (2009) CATALYSIS LETTERS 1011-372X 1572-879X 132 1-2 259-267
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  82. Lopez-Munoz MJ et al. Simultaneous photocatalytic reduction of silver and oxidation of cyanide from dicyanoargentate solutions. (2009) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 86 1-2 53-62
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    Független, Idéző: 20853143, Kapcsolat: 20853143
  83. Karunakaran C et al. Semiconductor-Photocatalyzed Degradation of Carboxylic Acids: Enhancement by Particulate Semiconductor Mixture. (2009) INTERNATIONAL JOURNAL OF CHEMICAL KINETICS 0538-8066 1097-4601 41 11 716-726
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    Független, Idéző: 20853144, Kapcsolat: 20853144
  84. Du LC et al. Plasmon-Induced Charge Separation and Recombination Dynamics in Gold-TiO2 Nanoparticle Systems: Dependence on TiO2 Particle Size. (2009) JOURNAL OF PHYSICAL CHEMISTRY C 1932-7447 1932-7455 113 16 6454-6462
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    Független, Idéző: 20853145, Kapcsolat: 20853145
  85. Karunakaran C et al. Photooxidation of Oxalic Acid on Sm2O3: Synergism by Semiconductors. (2009) CATALYSIS LETTERS 1011-372X 1572-879X 130 1-2 222-226
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    Független, Idéző: 20853146, Kapcsolat: 20853146
  86. Karunakaran C et al. Photodegradation of carboxylic acids on Pr6O11 surface. Enhancement by semiconductors. (2009) CHEMICAL ENGINEERING JOURNAL 1385-8947 151 1-3 46-50
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  87. Mirkhani V. Photodegradation of Aromatic Amines by Ag-TiO2 Photocatalyst. (2009) JOURNAL OF THE IRANIAN CHEMICAL SOCIETY 1735-207X 1735-2428 6 4 800-807
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    Független, Idéző: 20853148, Kapcsolat: 20853148
  88. Serrano Elena et al. Nanotechnology for sustainable energy. (2009) RENEWABLE & SUSTAINABLE ENERGY REVIEWS 1364-0321 1879-0690 13 9 2373-2384
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  89. Ismail AA et al. Gold Nanoparticles on Mesoporous Interparticle Networks of Titanium Dioxide Nanocrystals for Enhanced Photonic Efficiencies. (2009) JOURNAL OF PHYSICAL CHEMISTRY C 1932-7447 1932-7455 113 17 7429-7435
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    Független, Idéző: 20853149, Kapcsolat: 20853149
  90. Cooper W et al. Free radical mechanisms for the treatment of methyl tert-butyl ether (MTBE) via advanced oxidation/reductive processes in aqueous solutions. (2009) CHEMICAL REVIEWS 0009-2665 1520-6890 109 3 1302-1345
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    Független, Idéző: 23002168, Kapcsolat: 23002168
  91. Lee J et al. Fabrication of titania nanotubular film with metal nanoparticles. (2009) JOURNAL OF CRYSTAL GROWTH 0022-0248 311 3 638-641
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    Független, Idéző: 23002167, Kapcsolat: 23002167
  92. Karunakaran C et al. Degradation of carboxylic acids on Y2O3 surface under UV light. Synergism by semiconductors. (2009) RADIATION PHYSICS AND CHEMISTRY: THE JOURNAL FOR RADIATION PHYSICS RADIATION CHEMISTRY AND RADIATION PROCESSING 0969-806X 1879-0895 0146-5724 78 3 173-176
    Journal Article[20853150] [Admin approved]
    Független, Idéző: 20853150, Kapcsolat: 20853150
  93. Liao WS. Benchtop chemistry for the rapid prototyping of label-free biosensors: Transmission localized surface plasmon resonance platforms. (2009) BIOINTERPHASES 1934-8630 1559-4106 4 4 80-85
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    Független, Idéző: 20914923, Kapcsolat: 20914923
  94. Shon H. Visible light responsive titanium dioxide (TiO 2). (2008) Journal of the Korean Industrial and Engineering Chemistry 19 1 1-16
    Journal Article/Article (Journal Article)[23002155] [Admin approved]
    Független, Idéző: 23002155, Kapcsolat: 23002155
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