Abstract This paper focuses on the capabilities and development prospects of nanostructured metal oxides (MOX) representing the most versatile and richest class of materials in terms of electronic structure and structural, chemical, and physical properties. MOX nano-materials with controlled composition, surface terminations, and crystalline structures to be used as chemical sensors as a new area in analytical chemistry and instrument engineering are discussed. Their principles of operation, and basic characteristics are outlined and main applications of MOX sensor technology are presented.
Metal oxide nanoscience and nanotechnology for chemical sensors / E., Comini; C., Baratto; I., Concina; G., Faglia; M., Falasconi; M., Ferroni; V., Galstyan; E., Gobbi; A., Ponzoni; A., Vomiero; D., Zappa; Sberveglieri, Veronica; G., Sberveglieri. - In: SENSORS AND ACTUATORS. B, CHEMICAL. - ISSN 0925-4005. - STAMPA. - 179:(2012), pp. 3-20. [10.1016/j.snb.2012.10.027]
Metal oxide nanoscience and nanotechnology for chemical sensors
SBERVEGLIERI, VERONICA;
2012
Abstract
Abstract This paper focuses on the capabilities and development prospects of nanostructured metal oxides (MOX) representing the most versatile and richest class of materials in terms of electronic structure and structural, chemical, and physical properties. MOX nano-materials with controlled composition, surface terminations, and crystalline structures to be used as chemical sensors as a new area in analytical chemistry and instrument engineering are discussed. Their principles of operation, and basic characteristics are outlined and main applications of MOX sensor technology are presented.
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