Add to ORKGThis paper presents a hybrid molecular approach to the synthesis of metal-oxide nanosystems. The adopted strategy is based on the CVD infiltration of a guest phase in the sponge-like structure of a xerogel host matrix prepared by the Sol-Gel route. Such a combined preparation methodology allows an intimate host-guest intermixing, resulting in chemico-physical properties widely tunable as a function of the synthesis conditions. A further ex-situ annealing can lead to the formation of different kinds of nanosystems with controlled composition, structure and morphology. In order to evidence the peculiar advantages of this method, two selected case studies are presented and discussed, namely CeO2-ZrO2 and LaCoO3 nanostructured thin films. Atten...
The synthesis of nanoparticles with control over particle size, shape, and crystalline structure, ha...
Applying nanoscale design and fabrication strategies to functional oxides is potentially promising b...
The precise organization of functional matters on the chemically inert surfaces of varied substrates...
This paper presents a hybrid molecular approach to the synthesis of metal-oxide nanosystems. The ad...
The present contribution is devoted to outlining some recent results from an innovative approach to ...
A novel combined PE-CVD/Sol-Gel approach to oxide based nanosystems is proposed and employed for the...
LaCoO3 nanosystems are receiving increasing attention for the development of innovative fuel cells a...
Non-aqueous sol-gel routes are elegant approaches for the synthesis of nanomaterials[1]. Here, it wi...
Lanthanum cobaltite (LaCoO3) thin films were synthesized by an innovative route based on the combina...
Versatility, extended compositional ranges, better homogeneity, lesser energy consumption, and requi...
Novel solution routes covering a wide range of processes like hydrothermal, solvothermal and supercr...
The sol-gel process is a more chemical method (wet chemical method) for the synthesis of various nan...
Metal and metal-oxide based nanosystems are intriguing candidates for a plethora of advanced applica...
Multi-component oxide-based nanosystems are of primary technological importance for various applicat...
Facile routes to metal oxide and mixed metal oxide nanomaterials, with control over the resulting pa...
The synthesis of nanoparticles with control over particle size, shape, and crystalline structure, ha...
Applying nanoscale design and fabrication strategies to functional oxides is potentially promising b...
The precise organization of functional matters on the chemically inert surfaces of varied substrates...
This paper presents a hybrid molecular approach to the synthesis of metal-oxide nanosystems. The ad...
The present contribution is devoted to outlining some recent results from an innovative approach to ...
A novel combined PE-CVD/Sol-Gel approach to oxide based nanosystems is proposed and employed for the...
LaCoO3 nanosystems are receiving increasing attention for the development of innovative fuel cells a...
Non-aqueous sol-gel routes are elegant approaches for the synthesis of nanomaterials[1]. Here, it wi...
Lanthanum cobaltite (LaCoO3) thin films were synthesized by an innovative route based on the combina...
Versatility, extended compositional ranges, better homogeneity, lesser energy consumption, and requi...
Novel solution routes covering a wide range of processes like hydrothermal, solvothermal and supercr...
The sol-gel process is a more chemical method (wet chemical method) for the synthesis of various nan...
Metal and metal-oxide based nanosystems are intriguing candidates for a plethora of advanced applica...
Multi-component oxide-based nanosystems are of primary technological importance for various applicat...
Facile routes to metal oxide and mixed metal oxide nanomaterials, with control over the resulting pa...
The synthesis of nanoparticles with control over particle size, shape, and crystalline structure, ha...
Applying nanoscale design and fabrication strategies to functional oxides is potentially promising b...
The precise organization of functional matters on the chemically inert surfaces of varied substrates...