Gases in Agro-food Processes is the ultimate reference covering all applications of gases in agro-Food processes, from farm to fork. Divided into 11 sections, the book covers chemical and physical gas properties, gas monitoring, regulation, heat and mass transfers. Sections are dedicated to agriculture and food processing, wastewater treatment, safety applications and market trends. Users will find this to be a valuable resource for industrial scientists and researchers in technical centers who are developing agro-food products. In addition, the book is ideal for graduate students in agro-food science, chemistry and the biosciences.
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Dr. Orlandi received his PhD in Materials Science and Engineering at the Federal Unviersity of São Carlos in Brazil in 2005 studying nanostructures based on SnO2. He was a Visiting Scientist at the Department of Materials Science and Engineering at the Massachusetts Institute of Technology for the years 2011, 2012, 2014, and 2015. He is now the head of the Electron Microscopy Center of the Chemistry Institute of Araraquara and Associate Professor at the Chemistry Institute at São Paulo State University. His main research focus is ceramic materials, studying the growth mechanism and properties of semiconductors.
Tin Oxide MaterialsSynthesis, Properties, and Applications
Edited by Marcelo Orlandi
Tin Oxide Materials is a thorough reference on this important materials system, reviewing its properties, synthesis, and modeling methods, and most relevant applications.
Not only does the book address the much investigated SnO2, but also discusses its other stoichiometries such as SnO and the mixed valence Sn3O4, which have attracted much interest in recent years.
First, the most relevant structure, physical, and chemical properties of tin oxides are reviewed. Then the discussion is deepened by the inclusion of the theoretical models and simulation methods needed to have a thorough understanding of tin oxide materials properties.
A range of synthesis methods including solid-state reaction, wet methods, and methods for obtaining thin films are reviewed. The relationship between the synthesis method and the desired morphology is correlated in the book.
Finally, Tin Oxide Materials describes the most relevant applications in energy, electronics, and biomedical fields.
Key features
Dr. Marcelo Ornaghi Orlandi received his PhD in Materials Science and Engineering at the Federal University of São Carlos in Brazil in 2005 studying nanostructures based on SnO2. He was a visiting scientist at the Department of Materials Science and Engineering at the Massachusetts Institute of Technology for 2011, 2012, 2014, and 2015, and at the Department of Physical Engineering at Polytechnique Montreal, in 2017 and 2018. He is now the head of the Center of Characterization and Development of Protocols in Nanotechnology and he is in-charge of the Electron Microscopy facility at the Chemistry Institute of AraraquaraUNESP, where he has a permanent position as an associate professor. His main research focus is ceramic materials, studying the growth mechanism and applications of semiconductors.
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