Carbon dioxide adsorption and conversion to methane and ethane on hydrogen boride sheets.
Taiga GotoShin-Ichi ItoSatish Laxman ShindeRyota IshibikiYasuyuki HikitaIwao MatsudaIkutaro HamadaHideo HosonoTakahiro KondoPublished in: Communications chemistry (2022)
Hydrogen boride (HB) sheets are metal-free two-dimensional materials comprising boron and hydrogen in a 1:1 stoichiometric ratio. In spite of the several advancements, the fundamental interactions between HB sheets and discrete molecules remain unclear. Here, we report the adsorption of CO 2 and its conversion to CH 4 and C 2 H 6 using hydrogen-deficient HB sheets. Although fresh HB sheets did not adsorb CO 2 , hydrogen-deficient HB sheets reproducibly physisorbed CO 2 at 297 K. The adsorption followed the Langmuir model with a saturation coverage of 2.4 × 10 -4 mol g -1 and a heat of adsorption of approximately 20 kJ mol -1 , which was supported by density functional theory calculations. When heated in a CO 2 atmosphere, hydrogen-deficient HB began reacting with CO 2 at 423 K. The detection of CH 4 and C 2 H 6 as CO 2 reaction products in a moist atmosphere indicated that hydrogen-deficient HB promotes C-C coupling and CO 2 conversion reactions. Our findings highlight the application potential of HB sheets as catalysts for CO 2 conversion.