Digitální knihovnaUPCE
 

Platinum Nanoparticles on 3D Graphene-like Zeolite-templated Carbon for Benzene Hydrogenation

ČlánekOmezený přístuppeer-reviewedpostprint
Náhled

Datum publikování

2023

Autoři

Rastegar, Somayeh F. F
Pilar, Radim
Moravkova, Jaroslava
Sádovská, Galina
Parvulescu, Vasile I. I
Pastvova, Jana
Plsek, Jan
Kaucky, Dalibor
Kostková, Nikola
Sazama, Petr

Vedoucí práce

Oponent

Název časopisu

Název svazku

Vydavatel

Royal Society of Chemistry

Abstrakt

The concentration and dispersion of metal clusters in metal-supported catalysts are essential for the performance of hydrogenation catalysts. In this study, very high concentrations (& SIM;25 wt%) of well-dispersed Pt nanoparticles of the face-centred cubic crystal structure with a mean diameter of & SIM;1.7 nm were prepared in zeolite-templated carbon (Pt/Y-carbon). The defined 3D porous structure of Pt/Y-carbon formed by nanocasting of the zeolitic channel system and characterised by a specific surface area (& SIM;2440 m(2) g(-1)) comparable to the theoretical surface area of graphene and accessible through 3D organized pores accommodates Pt nanoparticles with high dispersion and specific activity in hydrogenation of benzene to cyclohexane at Pt loadings from 3 to 25 wt%. It provides a multiple increase in the concentration of active Pt sites and a corresponding increase in the TOF and conversions in the hydrogenation reaction. The productivity of the most active catalyst reaches a value of 1.06 x 10(-3) mol g(cat)(-1) s(-1). The study demonstrates a novel concept for the creation of catalysts with a very high concentration of metal clusters dispersed on the support with readily accessible 3D organized pores for reactions catalysed heterogeneously by supported metal nanoparticles.

Rozsah stran

p. 5120-5130

ISSN

2044-4753

Trvalý odkaz na tento záznam

Projekt

Zdrojový dokument

Catalysis Science and Technology, volume 13, issue: 17

Vydavatelská verze

https://pubs.rsc.org/en/content/articlelanding/2023/cy/d3cy00617d

Přístup k e-verzi

Práce není přístupná

Název akce

ISBN

Studijní obor

Studijní program

Signatura tištěné verze

Umístění tištěné verze

Přístup k tištěné verzi

Klíčová slova

Diesel fuels, Storage, Nanotubes, Catalysts, Deposition, Surface, Dieselová paliva, Skladování, Nanotrubice, Katalyzátory, Depozice, povrch

Endorsement

Review

item.page.supplemented

item.page.referenced