Metal oxide nanoparticles : formation, functional properties, and interfaces /
edited by Oliver Diwald, Paris-Lodron University of Salzburg, Austria, Thomas Berger, Paris-Lodron University of Salzburg, Austria.
- 1 online resource
Includes bibliographical references and index.
"Metal oxide nanoparticles play a decisive role in numerous natural and technological processes ranging from mineral transformation, catalysis, photocatalysis, electronics, and sensor technology. Continuously increasing quantities of metal oxide nanoparticle powders are used in very diverse areas such as engineering, electronics, energy technology, and electronics. As such, they have by far the greatest market relevance among the currently available nanomaterials. Defects, surfaces and interfaces in metal oxide nanoparticles dominate most physico-chemical processes occurring within this class of functional materials. As a result, interface engineering, i.e. the controlled modification of composition, size and structure, has become a key tool to tune the function and stability of nanostructures, but also to induce complex assembly at the meso- and the microscale, providing access to a range of new materials"--
9781119436782 1119436788 9781119436768 1119436761 9781119436799 1119436796
10.1002/9781119436782 doi
9781119436768 Wiley
2021031987
GBC120220 bnb
020104297 Uk
Metal nanoparticles.
Metallic oxides.
Metal nanoparticles.
Metallic oxides.
TA418.9.N35
620.1/15
Includes bibliographical references and index.
"Metal oxide nanoparticles play a decisive role in numerous natural and technological processes ranging from mineral transformation, catalysis, photocatalysis, electronics, and sensor technology. Continuously increasing quantities of metal oxide nanoparticle powders are used in very diverse areas such as engineering, electronics, energy technology, and electronics. As such, they have by far the greatest market relevance among the currently available nanomaterials. Defects, surfaces and interfaces in metal oxide nanoparticles dominate most physico-chemical processes occurring within this class of functional materials. As a result, interface engineering, i.e. the controlled modification of composition, size and structure, has become a key tool to tune the function and stability of nanostructures, but also to induce complex assembly at the meso- and the microscale, providing access to a range of new materials"--
9781119436782 1119436788 9781119436768 1119436761 9781119436799 1119436796
10.1002/9781119436782 doi
9781119436768 Wiley
2021031987
GBC120220 bnb
020104297 Uk
Metal nanoparticles.
Metallic oxides.
Metal nanoparticles.
Metallic oxides.
TA418.9.N35
620.1/15