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ADSORPTION, INTERFACIAL CHEMISTRY, AND CHEMISTRY OF MATERIALS WITH ORDERED AND DISORDERED NANOPOROSITY
Research interests and activities of Professor Jaroniec and his group revolve primarily around interdisciplinary topics of interfacial chemistry, and chemistry of materials with ordered and disordered nanoporosity with a special emphasis placed on physical adsorption at the gas/solid and liquid/solid interfaces, as well as synthesis, modification and characterization of ordered and disordered nanoporous materials. His research covers such diverse topics as: (a) thermodynamics of adsorption processes at the gas/solid and liquid/solid interfaces, (b) elaboration of advanced methods for analyzing the surface heterogeneity and porosity of adsorbents, catalysts, photocatalysts and other nanoporous materials, (c) development of carbonaceous, siliceous, polymeric, inorganic oxide and hybrid organic-inorganic nanoporous materials, including chemically modified solids and ordered mesoporous materials for adsorption, catalysis, photocatalysis, energy and environmental applications, and (d) synthesis and modification of various nanoparticles such as carbon and silica spheres, and core-shell particles. Although in his laboratory the main emphasis is placed on the use of adsorption, thermal analysis, powder X-ray diffraction, scanning and transmission electron microscopy for studying nanoporous materials, other methods such as solid-state NMR and infrared spectroscopy are also used to enrich information about surface and structural properties of these materials.
Research interests and activities of Professor Jaroniec and his group revolve primarily around interdisciplinary topics of interfacial chemistry, and chemistry of materials with ordered and disordered nanoporosity with a special emphasis placed on physical adsorption at the gas/solid and liquid/solid interfaces, as well as synthesis, modification and characterization of ordered and disordered nanoporous materials. His research covers such diverse topics as: (a) thermodynamics of adsorption processes at the gas/solid and liquid/solid interfaces, (b) elaboration of advanced methods for analyzing the surface heterogeneity and porosity of adsorbents, catalysts, photocatalysts and other nanoporous materials, (c) development of carbonaceous, siliceous, polymeric, inorganic oxide and hybrid organic-inorganic nanoporous materials, including chemically modified solids and ordered mesoporous materials for adsorption, catalysis, photocatalysis, energy and environmental applications, and (d) synthesis and modification of various nanoparticles such as carbon and silica spheres, and core-shell particles. Although in his laboratory the main emphasis is placed on the use of adsorption, thermal analysis, powder X-ray diffraction, scanning and transmission electron microscopy for studying nanoporous materials, other methods such as solid-state NMR and infrared spectroscopy are also used to enrich information about surface and structural properties of these materials.
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CHEMPHYSCHEMno. 5 (2024): e202300553-e202300553
Microporous and Mesoporous Materialspp.113117, (2024)
APPLIED CATALYSIS B-ENVIRONMENT AND ENERGY (2024): 123475-123475
CHEMICAL SOCIETY REVIEWSno. 4 (2024): 2022-2055
MICROPOROUS AND MESOPOROUS MATERIALS (2024): 112869-112869
CHEMICAL SOCIETY REVIEWSno. 3 (2024): 1552-1591
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