Konstantinos Dimos
University of Ioannina
50 Papers
192 Citations
Konstantinos Dimos is an academic researcher from University of Ioannina. The author has contributed to research in topics: Graphene & Adsorption. The author has an hindex of 19, co-authored 47 publications. Previous affiliations of Konstantinos Dimos include University of Groningen & University of Patras.
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Papers
Revealing the ultrafast process behind the photoreduction of graphene oxide
Regis Y. N. Gengler,Daniel Salvatore Badali,Dongfang Zhang,Konstantinos Dimos,Konstantinos Spyrou,Dimitrios Gournis,R. J. Dwayne Miller,R. J. Dwayne Miller +7 more
TL;DR: The present study reaches the fundamental time scale of the ultraviolet photoreduction in solution, which is revealed to be in the picosecond regime.
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Methane storage in zeolite-like carbon materials
Myrsini K. Antoniou,Evmorfia K. Diamanti,Apostolos Enotiadis,Alfonso Policicchio,Konstantinos Dimos,Federica Ciuchi,E. Maccallini,Dimitrios Gournis,Raffaele Giuseppe Agostino +8 more
TL;DR: In this paper, high specific surface area zeolite-like carbon materials (CZ) were synthesized by combining the hard template method with the Chemical Vapor Deposition (CVD), using Zeolite beta as solid template and acetylene as carbon precursor, at different reaction temperatures (1023, 1073 and 1123 K).
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Cationic and anionic azo-dye removal from water by sulfonated graphene oxide nanosheets in Nafion membranes
Silvia Scalese,Isabella Nicotera,D. D’Angelo,Simona Filice,Sebania Libertino,Cataldo Simari,Konstantinos Dimos,Vittorio Privitera +7 more
TL;DR: In this paper, the degradation of a cationic dye, methylene blue (MB), in the dark and under UV/Visible light illumination was compared with the ability of Nafion-GOSULF alone.
Synthesis and characterization of ZnS nanosized semiconductor particles within mesoporous solids.
TL;DR: The ZnS quantum dots-MCM-41 composite, which has been studied with XRD, EDS, and BET techniques, is shown to have retained within the pores the formed quantum dots, with a size distribution exhibiting a maximum nanoparticle diameter of ca.
Graphene oxide derivatives with variable alkyl chain length and terminal functional groups as supports for stabilization of cytochrome c.
Michaela Patila,Ioannis V. Pavlidis,Antonios Kouloumpis,Konstantinos Dimos,Konstantinos Spyrou,Petros Katapodis,Dimitrios Gournis,Haralambos Stamatis +7 more
TL;DR: The enhanced thermal stability and increased tolerance against denaturing agents observed for immobilized cyt c, indicates that these functionalized GONs are suitable as nanoscaffolds for the development of robust nanobiocatalysts.
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