TY - JOUR
T1 - Direct observation of the initial process of Ostwald ripening using spherical aberration-corrected transmission electron microscopy
AU - Yoshida, Kenta
AU - Bright, Alexander
AU - Tanaka, Nobuo
N1 - Funding Information:
This work was supported in part by a grant from the Japan Fine Ceramics Center. The ETEM facility was also supported by grants from the Chubu Economic Federation and Aichi Prefecture. We also thank JSPS Research Fellowships for Young Scientists for their grant (K.Y.).
PY - 2012/4
Y1 - 2012/4
N2 - We study in situ behavior of platinum single atoms on amorphous carbon (a-carbon) using a spherical aberration-corrected transmission electron microscope (AC-TEM). Diffusion of single atoms, bi-atoms, clusters (<1 nm) and nanoparticles (<3 nm) was recorded in the same image with a time resolution of 1 s, and such diffusion matches the expected mechanism of Ostwald ripening, which was seen on these samples. In situ AC-TEM shows promise for dynamical observation of single atom diffusion, which is important for understanding nanosized catalysts and ceramic sintering processes. We apply in situ AC-TEM to image platinum (Pt) nanoparticles on a-carbon, which is a model catalyst system for the real Pt electrode catalysts using alloys and core-shell structures supported on carbon/oxide composite materials in the proton exchange membrane fuel cell.
AB - We study in situ behavior of platinum single atoms on amorphous carbon (a-carbon) using a spherical aberration-corrected transmission electron microscope (AC-TEM). Diffusion of single atoms, bi-atoms, clusters (<1 nm) and nanoparticles (<3 nm) was recorded in the same image with a time resolution of 1 s, and such diffusion matches the expected mechanism of Ostwald ripening, which was seen on these samples. In situ AC-TEM shows promise for dynamical observation of single atom diffusion, which is important for understanding nanosized catalysts and ceramic sintering processes. We apply in situ AC-TEM to image platinum (Pt) nanoparticles on a-carbon, which is a model catalyst system for the real Pt electrode catalysts using alloys and core-shell structures supported on carbon/oxide composite materials in the proton exchange membrane fuel cell.
KW - Aberration correction
KW - In situ
KW - Nanoparticles
KW - Transmission electron microscopy
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U2 - 10.1093/jmicro/dfr100
DO - 10.1093/jmicro/dfr100
M3 - Article
C2 - 22366031
AN - SCOPUS:84863933913
SN - 2050-5698
VL - 61
SP - 99
EP - 103
JO - Microscopy (Oxford, England)
JF - Microscopy (Oxford, England)
IS - 2
ER -