ID: 1961
/ Poster - 34 Catalysis: 1
Poster session abstracts
Poster
Poster session abstracts
Radomír Kužel
ID: 1547
/ Poster - 34 Catalysis: 2
Materials and minerals
Poster
MS: Catalysis: functionalized materials studied by XRD and XAFSPosters only: Structure and phase transitions in advanced materialsKeywords: cobalt molybdenum nitrides, ammonolysis, catalyst, XRPD in-situ
In-situ XRPD analysis of active carbon supported Co-Mo ammonia synthesis catalysts activation
Agnieszka Wojciechowska, Paweł Adamski, Aleksander Albrecht, Artur Jurkowski
West Pomeranian University of Technology in Szczecin, ul. Pułaskiego 10, Szczecin, Poland
ID: 1545
/ Poster - 34 Catalysis: 3
Materials and minerals
Poster
MS: Catalysis: functionalized materials studied by XRD and XAFSPosters only: Structure and phase transitions in advanced materials, Crystallography in industry and applied sciencesKeywords: Ammonia synthesis; wustite; XRPD in-situ; crystallite size
Dependence of wustite based iron catalyst crystallite size on ammonia synthesis reaction analysed by in-situ XRPD
Artur Jurkowski, Paweł Adamski, Aleksander Albrecht, Agnieszka Wojciechowska, Zofia Lendzion-Bieluń
West Pomeranian University of Technology in Szczecin, ul. Pułaskiego 10, Szczecin, Poland
ID: 1544
/ Poster - 34 Catalysis: 4
Materials and minerals
Poster
MS: Catalysis: functionalized materials studied by XRD and XAFSPosters only: Structure and phase transitions in advanced materialsKeywords: In-situ; XRPD; catalyst; cobalt molybdenum nitrides, pH
How does precipitation pH affect structural transformations during activation of Co-Mo catalyst? In situ XPRD study
Aleksander Albrecht, Paweł Adamski, Marlena Nadziejko, Dariusz Moszyński
West Pomeranian University of Technology in Szczecin, Pulaskiego 10, 70-322 Szczecin, Poland
ID: 1543
/ Poster - 34 Catalysis: 5
Materials and minerals
Poster
MS: Catalysis: functionalized materials studied by XRD and XAFSPosters only: Structure and phase transitions in advanced materialsKeywords: cobalt molybdenum nitrides, ammonolysis, XRPD in-situ
In-situ XRPD study of ammonolysis of cobalt-molybdenum ammonia synthesis catalysts with defined Co to Mo ratio
Paweł Adamski, Aleksander Albrecht, Dariusz Moszyński
West Pomeranian University of Technology in Szczecin, ul. Pułaskiego 10, Szczecin, Poland
ID: 565
/ Poster - 34 Catalysis: 6
Bursary application
Poster
MS: Catalysis: functionalized materials studied by XRD and XAFSKeywords: tungsten trioxide, tungstite, photocatalysis, sulfamethazine
Immobilization of tungsten trioxide on the surface of mesoporous silica: structural investigation of the role of crystalline water on photocatalyst stability.
Oussama Oulhakem
Materials Nano-Materilas Unit, Energy Research Center, Mohammed V University in Rabat,Morocco
Bibliography I don't have a publication yet
ID: 539
/ Poster - 34 Catalysis: 7
Materials and minerals
Oral/poster
MS: Catalysis: functionalized materials studied by XRD and XAFSKeywords: XANES, EXAFS, catalysis, palladium
Detailed information about the core/shell/surface structure of palladium nanoparticles by combined in situ and operando X-ray absorption and diffraction data
Aram Bugaev1,2, Oleg Usoltsev1, Alina Skorynina1, Alexander Guda1, Kirill Lomachenko3, Alexander Soldatov1
1Southern Federal University, Rostov-on-Don, Russia; 2Southern Scientific Center, Russian Academy of Science, Rostov-on-Don, Russia; 3European Synchrotron Radiation Facility, Grenoble, France
ID: 483
/ Poster - 34 Catalysis: 8
Bursary application
Oral/poster
MS: Materials for energy conversion and storage, Catalysis: functionalized materials studied by XRD and XAFS, Energy MaterialsPosters only: Methods, instrumentation (if it does not fit to any specific topics), General (if it does not fit to any specific topics nor areas)Keywords: palladium; nanoparticles; CO probing molecules; FTIR; adsorption;
Evolution of Pd/CeO2 surface morphology in situ monitored by FTIR spectroscopy
Andrei Tereshchenko, Alexander Guda, Vladimir Polyakov, Yuri Rusalev, Alexander Soldatov
The Smart Materials Research Institute, Southern Federal University, 344090 Rostov-on-Don, Russia
Bibliography Publications
1.V. G. Vlasenko, A. A. Guda, A. G. Starikov, M. G. Chegerev, A. V. Piskunov, I. V. Ershova, A. L. Trigub, A. A. Tereshchenko, Y. V. Rusalev and S. P. Kubrin, Structural changes in five‐coordinate bromido‐bis (o‐iminobenzo‐semiquinonato) iron (III) complex: spin‐crossover or ligand‐metal antiferromagnetic interactions? Eur. J. Inorg. Chem. (2021) in press DOI: 10.1002/ejic.202001033
2.V. A. Polyakov, V. V. Butova, E. A. Erofeeva, A. A. Tereshchenko and A. V. Soldatov, MW Synthesis of ZIF-7. The Effect of Solvent on Particle Size and Hydrogen Sorption Properties. 13 Energies (2020) 6306.
3.Y. V. Rusalev, A. Tereshchenko, A. Guda and A. Soldatov, Theoretical Simulation of the Binding Energies and Stretching Frequencies of CO Molecules on PtSn Bimetallic Nanoparticles. 14 Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques (2020) 440.
4.G. Smolentsev, C. J. Milne, A. Guda, K. Haldrup, J. Szlachetko, N. Azzaroli, C. Cirelli, G. Knopp, S. Menzi and G. Pamfilidis, Taking a snapshot of the triplet excited state of an OLED organometallic luminophore using X-rays. 11 Nat. Commun. (2020) 1.
5.Tereshchenko, A. Guda, V. Polyakov, Y. Rusalev, V. Butova and A. Soldatov, Pd nanoparticle growth monitored by DRIFT spectroscopy of adsorbed CO. Analyst 23 (2020) 7534.
6.Tereshchenko, V. Polyakov, A. Guda, A. Bulgakov, A. Tarasov, L. Kustov, V. Butova, A. Trigub and A. Soldatov, Synthesis and Description of Small Gold and Palladium Nanoparticles on CeO2 Substrate: FT-IR Spectroscopy Data. 14 Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques (2020) 447.
7.O. A. Usoltsev, A. Y. Pnevskaya, E. G. Kamyshova, A. A. Tereshchenko, A. A. Skorynina, W. Zhang, T. Yao, A. L. Bugaev and A. V. Soldatov, Dehydrogenation of Ethylene on Supported Palladium Nanoparticles: A Double View from Metal and Hydrocarbon Sides. 10 Nanomaterials (2020) 1643.
8.Tereshchenko, V. Polyakov, A. Guda, T. Lastovina, Y. Pimonova, A. Bulgakov, A. Tarasov, L. Kustov, V. Butova and A. Trigub, Ultra-Small Pd Nanoparticles on Ceria as an Advanced Catalyst for CO Oxidation. 9 Catalysts (2019) 385.
9.Skorynina, A. Tereshchenko, O. Usoltsev, A. Bugaev, K. Lomachenko, A. Guda, E. Groppo, R. Pellegrini, C. Lamberti and A. Soldatov, Time-dependent carbide phase formation in palladium nanoparticles. Radiat. Phys. Chem. (2018)
10.M. Kirichkov, V. Polyakov, A. Tereshchenko, V. Shapovalov, A. Guda and A. Soldatov, Synthesis of Palladium Nanoparticles on the Surface of Cerium (IV) Oxide under the Action of Ultraviolet Radiation and Their Characterization. 14 Nanotechnologies in Russia (2019) 435.
11.L. Bugaev, V. A. Polyakov, A. A. Tereshchenko, A. N. Isaeva, A. A. Skorynina, E. G. Kamyshova, A. P. Budnyk, T. A. Lastovina and A. V. Soldatov, Chemical synthesis and characterization of Pd/SiO2: the effect of chemical reagent. 8 Metals (2018) 135.
12.P. V. Medvedev, M. A. Soldatov, V. V. e. Shapovalov, A. A. Tereshchenko, A. Fedorenko and A. Soldatov, Analysis of the Local Atomic Structure of the MIL-88а Metal–Organic Framework by Computer Simulation Using XANES Data. 108 JETP Letters (2018) 318.
Patents
1.A.A. Tereshchenko, A.A. Guda, Yu.V. Rusalev, A.L. Bugaev, A.V. Soldatov, Method for determining oxygen storage capacity in oxide materials. RU 2708899 C1, application № 2019114145, 10.05.2019, published 12.12.2019
2.A.A. Skorynina, Yu.V. Rusalev, A.A. Guda, A.V. Soldatov, A.L. Bugaev, A.A. Tereshchenko, Cell for spectral diagnostics. RU 190702 U1, application № 2019112413, published 23.04.2019
3.A.A. Tereshchenko, A.A. Guda, A.P. Bydnyk, A.V. Soldatov, C. Lamberti, Cell for laboratory FTIR- and X-ray absorption spectral diagnostics. RU 180097 U1, application № 2017145634, 25.12.2017, published 04.06.2018
Conferences
1. A.A. Tereshchenko, A.A. Guda, V.A. Polyakov, A.V. Soldatov, In situ monitoring of Pd/CeO2 nanoparticles growth by means of FTIR spectroscopy // VI International scientific school-conference for young scientists Catalysis: from science to industry, October 6-10 2020, Tomsk, Russia, book of abstracts, p. 33.
2. A. Tereshchenko, V. Polyakov, A. Guda, L. Kustov, A. Tarasov, A. Trigub, A. Sodatov, Low-temperature catalysts based on ceria supported ultra-small Pd, Au and PdAu nanoparticles: synthesis and characterization // Emerging synchrotron techniques for characterization of energy materials and devices, September 23-25 2019, Grenoble, France, book of abstracts, p. 67
3. A. A. Tereshchenko, A. A. Guda, A. P. Budnyk, Palladium nanoparticles on different supports revealed by adsorption of probe molecules using infrared spectroscopy // International Workshop for Young Researchers «Smart Materials & Mega-Scale Research Facilities», April 23 2018, Rostov-on-Don, Russia, book of abstracts, p. 28
4.A. Bugaev, A. Skorynina, A. Tereshchenko, et al Surface-Core-Shall Structure of Palladium Nanoparticles // International Workshop for Young Researchers «Smart Materials & Mega-Scale Research Facilities», April 23, 2018, Rostov-on-Don, Russia, book of abstracts, p. 21.
5. A. A. Guda, O.V. Safonova, A.A. Tereshchenko et al, In situ characterization of ceria based nanocatalysts// Design of polyfunctional structures: theory and synthesis, October 23-36 2018, Rostov-on-Don, Russia, book of abstracts, p. 35
6. A. A. Tereshchenko, A. A. Guda, V A. Polyakov, The in situ FTIR study of the noble nanoparticles supported by ceria using CO probing molecules// Design of polyfunctional structures: theory and synthesis, October 23-36 2018, Rostov-on-Don, Russia, book of abstracts, p. 84
7. A. A. Tereshchenko, X-ray structural studies of the ferroelectric phase transition in thin strontium-barium niobate films // XXII Russian science conference of students physicists and young scientists, April, 21-28 2016, Taganrog, Russia, book of abstracts, p. 523
ID: 1562
/ Poster - 34 Catalysis: 9
Chemical crystallography, crystal structures
Poster
Posters only: Chemical crystallography, crystal structures (if it does not fit to any specific topics)Keywords: Spinel, crystal growth, MEM, neutron, synchrotron
Crystal growth and structural studies of spinel ferrites
Jonas Ruby Sandemann, Bo Brummerstedt Iversen
Department of Chemistry & Interdisplinary Nanoscience Center (iNANO), Aarhus University, Denmark
|