Tuning diffusion paths in shaped ceria nanocrystals

Authors :: Esposito, Vincenzo
Kabir, Ahsanul
Rosa, Massimo
Van Nong, Ngo
Rodrigues, Thenner S.
Rodrigues, Lays N.
Machado, Marina F. S.
Moraes, Leticia P. R.
Marani, Debora
Coral Fonseca, Fabio
Esposito, Vincenzo
Kabir, Ahsanul
Rosa, Massimo
Van Nong, Ngo
Rodrigues, Thenner S.
Rodrigues, Lays N.
Machado, Marina F. S.
Moraes, Leticia P. R.
Marani, Debora
Coral Fonseca, Fabio
Source :: Esposito , V , Kabir , A , Rosa , M , Van Nong , N , Rodrigues , T S , Rodrigues , L N , Machado , M F S , Moraes , L P R , Marani , D & Coral Fonseca , F 2019 , ' Tuning diffusion paths in shaped ceria nanocrystals ' , CrystEngComm , vol. 21 , no. 27 , pp. 4025-4029 .
Publication Year :: 2019
Abstract: Mass diffusion controls material structuring from the atomic to the macro-scale defining properties and functionalities. We show here that surface energy in Ce0.9Gd0.1O3-d shaped nanocrystals, i.e. nanocubes, nanorods and spherical nanoparticles, can control solid state diffusion mechanisms over a long range, leading to extreme microstructural diversity.

Database :: OAIster
Journal :: Esposito , V , Kabir , A , Rosa , M , Van Nong , N , Rodrigues , T S , Rodrigues , L N , Machado , M F S , Moraes , L P R , Marani , D & Coral Fonseca , F 2019 , ' Tuning diffusion paths in shaped ceria nanocrystals ' , CrystEngComm , vol. 21 , no. 27 , pp. 4025-4029 .
Notes :: application/pdf, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1110502248
Document Type :: Electronic Resource