Add to ORKGTransition metal nanoparticles are very attractive catalysts since they have a large surface-to-volume ratio which makes their surface atoms very active. Their large surface-to-volume ratio results in higher catalytic efficiency per gram than large
The field of heterogeneous catalysis has received a remarkable amount of interest from scientific an...
Rapidly growing research interests surround heterogeneous nanocatalysis, in which metal nanoparticle...
Colloidal chemistry is used to control the size, shape, morphology, and composition of metal nanopar...
Nanocatalysts show excellent catalytic activity because of their immense surface-to-volume ratio. In...
Since metal nanoparticles have a high surface-to-volume ratio and very active surface atoms, they ar...
Exciting new opportunities are emerging in the field of catalysis based on nanotechnology approaches...
Nanoparticles(NPs) have been widely utilized as an excellent catalyst for many catalytic reactions. ...
Nanocatalysts show excellent catalytic activity because of their immense surface-to-volume ratio. In...
Gold is chemically inert and catalytically inactive in the bulky state but becomes highly catalytic ...
Exciting new opportunities are emerging in the field of catalysis based on nanotechnology approaches...
Recent developments in tailoring the structural and chemical properties of colloidal metal nanoparti...
Recent advances of a colloidal chemistry can offer great opportunities to fabricate and design nanoc...
In the past decades the importance of nanotechnology in the industry has grown exponentially. Nanopa...
This review article focuses on the impacts of recent advances in solution phase precious metal nanop...
International audienceCatalytic active sites consisting in isolated metal single atoms can be found ...
The field of heterogeneous catalysis has received a remarkable amount of interest from scientific an...
Rapidly growing research interests surround heterogeneous nanocatalysis, in which metal nanoparticle...
Colloidal chemistry is used to control the size, shape, morphology, and composition of metal nanopar...
Nanocatalysts show excellent catalytic activity because of their immense surface-to-volume ratio. In...
Since metal nanoparticles have a high surface-to-volume ratio and very active surface atoms, they ar...
Exciting new opportunities are emerging in the field of catalysis based on nanotechnology approaches...
Nanoparticles(NPs) have been widely utilized as an excellent catalyst for many catalytic reactions. ...
Nanocatalysts show excellent catalytic activity because of their immense surface-to-volume ratio. In...
Gold is chemically inert and catalytically inactive in the bulky state but becomes highly catalytic ...
Exciting new opportunities are emerging in the field of catalysis based on nanotechnology approaches...
Recent developments in tailoring the structural and chemical properties of colloidal metal nanoparti...
Recent advances of a colloidal chemistry can offer great opportunities to fabricate and design nanoc...
In the past decades the importance of nanotechnology in the industry has grown exponentially. Nanopa...
This review article focuses on the impacts of recent advances in solution phase precious metal nanop...
International audienceCatalytic active sites consisting in isolated metal single atoms can be found ...
The field of heterogeneous catalysis has received a remarkable amount of interest from scientific an...
Rapidly growing research interests surround heterogeneous nanocatalysis, in which metal nanoparticle...
Colloidal chemistry is used to control the size, shape, morphology, and composition of metal nanopar...