Department of Chemistry and Biochemistry

Marszewski Publications

Yan, Y.; Li, M.; King, S.C.; Galy, T.; Marszewski, M.; Kang, J.S.; Pilon, L.; Hu, Y.; Tolbert, S.H.; Controlling thermal conductivity in mesoporous silica films using pore size and nanoscale architecture. J. Phys. Chem. Lett. 2020, 11, 3731–3737.

Galy, T.; Marszewski, M.; King, S.; Yan, Y.; Tolbert, S.; Pilon, L. Comparing methods for measuring thickness, refractive index, and porosity of mesoporous thin films. Micro. Meso. Mater. 2020, 291, 109677.

Qian, X.; Zhao, Y.; Alsaid, Y.; Wang, X.; Hua, M.; Galy, T.; Gopalakrishna, H.; Yang, Y.; Cui, J.; Liu, N.; Marszewski, M.; Pilon, L.; Jiang, H.; He, X. Artificial phototropism for omnidirectional tracking and harvesting of light. Nat. Nanotechnol. 2019, 14, 1048–1055.

Yan, Y.; King, S.; Li, M.; Galy, T.; Marszewski, M.; Kang, J.S.; Pilon, L.; Hu, Y.; Tolbert, S.H. Exploring the effect of porous structure on thermal conductivity in templated mesoporous silica films. J. Phys. Chem. C 2019, 123, 21721–21730.

Marszewski, M.; King, S.C.; Yan, Y.; Galy, T.; Li, M.; Dashti, A.; Butts, D.M.; Kang, J.S.; McNeil, P.E.; Lan, E.; Dunn, B.; Hu, Y.; Tolbert, S.H.; Pilon, P. Thick transparent nanoparticle-based mesoporous silica monolithic slabs for thermally insulating window materials. ACS Appl. Nano Mater. 2019, 2, 4547–4555.

Galy, T.; Mu, D.; Marszewski, M.; Pilon, L. Computer-generated mesoporous materials and associated structural characterization. Comput. Mater. Sci. 2019, 157, 156–167.

Marszewski, M.; Butts, D.; Lan, E.; Yan, Y.; King, S.C.; McNeil, P.E.; Galy, T; Dunn, B.; Tolbert, S.H.; Hu, Y.; Pilon, L. Effect of surface hydroxyl groups on heat capacity of mesoporous silica. Appl. Phys. Lett. 2018, 112, 201903.

Marszewski, M.; Marszewska, J.; Pylypenko, S.; Jaroniec, M. Synthesis of porous crystalline doped titania photocatalysts using modified precursor strategy. Chem. Mater. 2016, 28, 7878–7888.

Choma, J.; Osuchowski, L.; Marszewski, M.; Dziura, A.; Jaroniec, M. Developing microporosity in Kevlar®-derived carbon fibers by CO2 activation for CO2 adsorption. J. CO2 Utilization 2016, 16, 17–22.

Choma, J.; Stachurska, K.; Marszewski, M.; Jaroniec, M. Equilibrium isotherms and isosteric heat for CO2 adsorption on nanoporous carbons from polymers. Adsorption 2016, 22, 581–588.

Marszewski, M.; Jaroniec, M. Scaffold-assisted synthesis of crystalline mesoporous titania materials. RSC Adv. 2015, 5, 61960–61972.

Marszewski, M.; Cao, S.; Yu, J.; Jaroniec, M. Semiconductor-based photocatalytic CO2 conversion. Mater. Horiz. 2015, 2, 261–278.

Choma, J.; Marszewski, M.; Osuchowski, Ł.; Jagiello, J.; Dziura, A.; Jaroniec, M. Adsorption properties of activated carbons prepared from waste CDs and DVDs. ACS Sustainable Chem. Eng. 2015, 3, 733–742.

Choma, J.; Osuchowski, Ł.; Dziura, A.; Marszewski, M.; Jaroniec, M. Benzene and methane adsorption on ultrahigh surface area carbons prepared from sulphonated styrene divinylbenzene resin by KOH activation. Adsorption Sci. Technol. 2015, 33, 6–8. (link)

Dziura, A.; Marszewski, M.; Choma, J.; de Souza, L.K.; Osuchowski, Ł.; Jaroniec, M. Saran-derived carbons for CO2 and benzene sorption at ambient conditions. Ind. Eng. Chem. Res. 2014, 53, 15383–15388. (link)

Choma, J.; Osuchowski, Ł.; Marszewski, M.; Jaroniec, M. Highly microporous polymer-based carbons for CO2 and H2 adsorption. RSC Adv. 2014, 4, 14795–14802. (link)

Marszewski, M.; Jaroniec, M. Toward tunable adsorption properties, structure, and crystallinity of titania obtained by block copolymer and scaffold-assisted templating. Langmuir 2013, 29, 12549–12559. (link)

Baggetto, L.; Marszewski, M.; Górka, J.; Jaroniec, M.; Veith, G. M. AlSb thin films as negative electrodes for Li-ion and Na-ion batteries. J. Power Sources 2013, 243, 699–705. (link)

Parker, A.; Marszewski, M.; Jaroniec, M. Microwave-assisted synthesis of porous carbon–titania and highly crystalline titania nanostructures. ACS Appl. Mater. Interfaces 2013, 5, 1948–1954. (link)

Choma, J.; Jedynak, K.; Marszewski, M.; Jaroniec, M. Organic acid-assisted soft-templating synthesis of ordered mesoporous carbons. Adsorption 2013, 19, 563–569. (link)

Choma, J.; Jedynak, K.; Marszewski, M.; Jaroniec, M. Polymer-templated mesoporous carbons synthesized in the presence of nickel nanoparticles, nickel oxide nanoparticles, and nickel nitrate. Appl. Surf. Sci. 2012, 258, 3763–3770. (link)

Choma, J.; Jamioła, D.; Augustynek, K.; Marszewski, M.; Gao, M.; Jaroniec, M. New opportunities in Stöber synthesis: preparation of microporous and mesoporous carbon spheres. J. Mater. Chem. 2012, 22, 12636–12642. (link)

Choma, J.; Jamioła, D.; Augustynek, K.; Marszewski, M.; Jaroniec, M. Carbon–gold core–shell structures: formation of shells consisting of gold nanoparticles. Chem. Commun. 2012, 48, 3972–3974. (link)

Choma, J.; Dziura, A.; Jamiola, D.; Marszewski, M.; Jaroniec, M. Preparation of mesoporous carbons with high specific surface area and large pore volume (in Polish). Ochr. Srod. 2012, 34, 3–7. (link)

Choma, J.; Jedynak, K.; Marszewski, M.; Jaroniec, M. Morphology and adsorption properties of mesoporous carbons obtained by soft-templating in the presence of zinc nitrate and nanoparticles of zinc and zinc oxide (in Polish). Biul. WAT 2012, 61, 265–280. (link)

Choma, J.; Jedynak, K.; Gorka, J.; Marszewski, M.; Jaroniec, M. Synthesis and properties of mesoporous carbons with gold particles (in Polish). Ochr. Srod. 2011, 33, 3–8. (link)
Last Updated: 9/9/20