Ultralow-temperature CO oxidation on an In2O3-Co3O4 catalyst: a strategy to tune CO adsorption strength and oxygen activation simultaneously

Autoria(s): Lou, Yang; Cao, Xiao-Ming; Lan, Jinggang; Wang, Li; Dai, Qiguang; Guo, Yun; Ma, Jian; Zhao, Zhenyang; Guo, Yanglong; Hu, P.; Lu, Guanzhong
Data(s)

2014
Resumo

Highly efficient In2O3-Co3O4 catalysts were prepared for ultralow-temperature CO oxidation by simultaneously tuning the CO adsorption strength and oxygen activation over a Co3O4 surface, which could completely convert CO to CO2 at temperatures as low as -105 degrees C compared to -40 degrees C over pure Co3O4, with enhanced stability.
Identificador

http://pure.qub.ac.uk/portal/en/publications/ultralowtemperature-co-oxidation-on-an-in2o3co3o4-catalyst-a-strategy-to-tune-co-adsorption-strength-and-oxygen-activation-simultaneously(d5bd1b73-3d28-40ac-9757-258beb79a4ed).html

http://dx.doi.org/10.1039/c4cc00036f
Idioma(s)

eng
Direitos

info:eu-repo/semantics/restrictedAccess
Fonte

Lou , Y , Cao , X-M , Lan , J , Wang , L , Dai , Q , Guo , Y , Ma , J , Zhao , Z , Guo , Y , Hu , P & Lu , G 2014 , ' Ultralow-temperature CO oxidation on an In2O3-Co3O4 catalyst: a strategy to tune CO adsorption strength and oxygen activation simultaneously ' Chemical Communications , vol 50 , no. 52 , pp. 6835-6838 . DOI: 10.1039/c4cc00036f
Palavras-Chave #GOLD CATALYSTS #CO3O4 #ORIGIN #NANOPARTICLES #TITANIA #OXIDES #BI2O3
Tipo

article
Acesso ao item digital