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Dimitar A. Panayotov
Dimitar A. Panayotov
Institute of General and Inorganic Chemistry, Bulgarian Academy of Sciences
Bestätigte E-Mail-Adresse bei svr.igic.bas.bg
Titel
Zitiert von
Zitiert von
Jahr
Light-Induced Charge Separation in Anatase TiO2 Particles
T Berger, M Sterrer, O Diwald, E Knözinger, D Panayotov, TL Thompson, ...
The Journal of Physical Chemistry B 109 (13), 6061-6068, 2005
7202005
Power of infrared and raman spectroscopies to characterize metal-organic frameworks and investigate their interaction with guest molecules
KI Hadjiivanov, DA Panayotov, MY Mihaylov, EZ Ivanova, KK Chakarova, ...
Chemical Reviews 121 (3), 1286-1424, 2020
4712020
Ultraviolet Light-Induced Hydrophilicity Effect on TiO2(110)(1×1). Dominant Role of the Photooxidation of Adsorbed Hydrocarbons Causing Wetting by Water Droplets
T Zubkov, D Stahl, TL Thompson, D Panayotov, O Diwald, JT Yates
The Journal of Physical Chemistry B 109 (32), 15454-15462, 2005
3902005
Rhodium-carbon monoxide surface chemistry: the involvement of surface hydroxyl groups on alumina and silica supports
P Basu, D Panayotov, JT Yates
Journal of the American Chemical Society 110 (7), 2074-2081, 1988
2991988
Spectroscopic Detection of Hydrogen Atom Spillover from Au Nanoparticles Supported on TiO2:  Use of Conduction Band Electrons
DA Panayotov, JT Yates
The Journal of Physical Chemistry C 111 (7), 2959-2964, 2007
1822007
Spectroscopic evidence for the involvement of hydroxyl groups in the formation of dicarbonylrhodium (I) on metal oxide supports
P Basu, D Panayotov, JT Yates
Journal of Physical Chemistry 91 (12), 3133-3136, 1987
1641987
Depletion of conduction band electrons in TiO2 by water chemisorption–IR spectroscopic studies of the independence of Ti–OH frequencies on electron concentration
DA Panayotov, JT Yates Jr
Chemical Physics Letters 410 (1-3), 11-17, 2005
1562005
n-Type doping of TiO2 with atomic hydrogen-observation of the production of conduction band electrons by infrared spectroscopy
DA Panayotov, JT Yates Jr
Chemical physics letters 436 (1-3), 204-208, 2007
1512007
Infrared Spectroscopic Studies of Conduction Band and Trapped Electrons in UV-Photoexcited, H-Atom n-Doped, and Thermally Reduced TiO2
DA Panayotov, SP Burrows, JR Morris
The Journal of Physical Chemistry C 116 (7), 4535-4544, 2012
1492012
Mechanistic Studies of Hydrogen Dissociation and Spillover on Au/TiO2: IR Spectroscopy of Coadsorbed CO and H-Donated Electrons
DA Panayotov, SP Burrows, JT Yates Jr, JR Morris
The Journal of Physical Chemistry C 115 (45), 22400-22408, 2011
1362011
Photooxidation Mechanism of Methanol on Rutile TiO2 Nanoparticles
DA Panayotov, SP Burrows, JR Morris
The Journal of Physical Chemistry C 116 (11), 6623-6635, 2012
1332012
Surface chemistry of Au/TiO2: Thermally and photolytically activated reactions
DA Panayotov, JR Morris
Surface Science Reports 71 (1), 77-271, 2016
1322016
Thermal Decomposition of a Chemical Warfare Agent Simulant (DMMP) on TiO2: Adsorbate Reactions with Lattice Oxygen as Studied by Infrared Spectroscopy
DA Panayotov, JR Morris
The Journal of Physical Chemistry C 113 (35), 15684-15691, 2009
1302009
Catalysis and Photocatalysis by Nanoscale Au/TiO2: Perspectives for Renewable Energy
DA Panayotov, AI Frenkel, JR Morris
ACS Energy Letters 2 (5), 1223-1231, 2017
1282017
Uptake of a Chemical Warfare Agent Simulant (DMMP) on TiO2: Reactive Adsorption and Active Site Poisoning
DA Panayotov, JR Morris
Langmuir 25 (6), 3652-3658, 2009
1252009
Coprecipitated CuO–MnOx catalysts for low-temperature CO–NO and CO–NO–O2 reactions
I Spassova, M Khristova, D Panayotov, D Mehandjiev
Journal of Catalysis 185 (1), 43-57, 1999
1131999
Photocatalytic Oxidation of 2-Chloroethyl Ethyl Sulfide on TiO2−SiO2 Powders
DA Panayotov, DK Paul, JT Yates
The Journal of Physical Chemistry B 107 (38), 10571-10575, 2003
1052003
Catalytic Degradation of a Chemical Warfare Agent Simulant:  Reaction Mechanisms on TiO2-Supported Au Nanoparticles
DA Panayotov, JR Morris
The Journal of Physical Chemistry C 112 (19), 7496-7502, 2008
772008
Photooxidation of a Mustard Gas Simulant over TiO2−SiO2 Mixed-Oxide Photocatalyst:  Site Poisoning by Oxidation Products and Reactivation
D Panayotov, P Kondratyuk, JT Yates
Langmuir 20 (9), 3674-3678, 2004
732004
FTIR mechanistic studies on the selective catalytic reduction of NOx with methane over Ni-containing zeolites: comparison between NiY and Ni-ZSM-5
M Mihaylov, K Hadjiivanov, D Panayotov
Applied Catalysis B: Environmental 51 (1), 33-42, 2004
692004
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