Email: bogdan.kuchta@pwr.edu.pl

Jednostka: Wydział Chemiczny » Katedra Inżynierii Bioprocesowej, Mikro i Nanoinżynierii

ul. C. K. Norwida 4/6, Wrocław
bud. C-6, pok. 115 A
tel. 71 320 2119

Konsultacje

Zainteresowania naukowe

• Modelowanie molekularne Monte Carlo; adsorpcja w strukturach porowatych; deformacje strukturalne w układach porowatych; adsorpcja gazów w porach.

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Najważniejsze publikacje z ostatnich lat

2024

• Bartosz Mazur, Lucyna Firlej, and Bogdan Kuchta, Efficient Modeling of Water Adsorption in MOFs Using Interpolated Transition Matrix Monte Carlo, ACS Applied Materials & Interfaces (2024) 16 (19), 25559-25567

2023

• Filip Formalik,* Michael Fischer, and Bogdan Kuchta, Correlating Phonons and Deformations: A Method for Structural Phase Transformation Analysis in Metal−Organic Frameworks, Cryst. Growth Des. (2023) 23, 8962−8971

2022

• Bartosz Mazur, Filip Formalik, Kornel Roztocki, Volodymyr Bon, Stefan Kaskel, Alexander V. Neimark,
  Lucyna Firlej, and Bogdan Kuchta, Quasicontinuous Cooperative Adsorption Mechanism in Crystalline Nanoporous Materials  J. Phys. Chem. Lett. (2022) 13, 6961−6965

2021

• Justyna Rogacka, Agnieszka Seremak, Azahara Luna-Triguero, Filip Formalik, Ismael Matito-Martos, Lucyna Firleja, Sofia Calero, Bogdan Kuchta, High-throughput screening of metal – Organic frameworks for CO₂ and CH₄ separation in the presence of water, Chemical Engineering Journal 403 (2021) 126392

2020

• Nicolas Chanut, Aziz Ghoufi, Marie-Vanessa Coulet, Sandrine Bourrelly, Bogdan Kuchta,
  Guillaume Maurin, Philip L. Llewellyn, Tailoring the separation properties of flexible metal-organic frameworks using mechanical pressure, NATURE COMMUNICATIONS (2020) 11:1216

2019

• Alexander St. John, Michael W. Roth, Lucyna Firlej, Bogdan Kuchta, Fabrice Charra and Carlos Wexler, Computer modeling of 2D supramolecular nanoporous monolayers self-assembled on graphite, Nanoscale, 2019, 11, 21284

2017

• Kuchta B., Dundar E., Formalik F., Firlej L., Llewellyn P.L., Adsorption induced structural phase transformation in nanopores, Angewandte Chimie In. Ed. (2017), 56, 16243-16246.

2013

• Firlej L., Pfeifer P., Kuchta B.,Understanding Universal Adsorption Limits for Hydrogen Storage in Nano Porous Systems. Advanced Materials (2013) 25, 5971-5974.

2012

• Kuchta B., Firlej L., Mohammadhosseini A., Boulet P., Beckner M., Romanos J., Pfeifer P., High-Surface-Area Carbons with Exceptional Hydrogen Storage Capacities: Open Carbon Frameworks. J. Am. Chem. Soc. (2012) 134, 15130-15137.

2010

• Beurroies I., Boulhout M., Llewellyn P.L., Kuchta B., Férey G., Serre Ch., Denoyel R., Using pressure to provoke the structural transition of MOF materials. Ang. Chimie Int. Ed. 49, 7526 -7529 (2010).
• Kuchta B., Firlej L., Pfeifer P., Wexler C., Numerical estimation of physical limits of hydrogen storage by physisorption in microporous nanospaces. Carbon 48, 223-231 (2010).

Publikacje w bazie DONA