Aerosol Processing of Materials
Recent advances in aerosol generation of materials are reviewed. Gas-to-particle and spray processes (spray pyrolysis) for powder generation and various routes for film generation are discussed from the experimental and theoretical perspectives. The range of materials generated by these routes has i...
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| Published in | Aerosol science and technology Vol. 19; no. 4; pp. 411 - 452 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Taylor & Francis Group
01.01.1993
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Recent advances in aerosol generation of materials are reviewed. Gas-to-particle and spray processes (spray pyrolysis) for powder generation and various routes for film generation are discussed from the experimental and theoretical perspectives. The range of materials generated by these routes has increased in recent years to include fullerenes and ceramic superconductors. Many metals and various oxide and nonoxide ceramics have also been added to the list of materials generated by gas-phase routes. Established aerosol routes such as vapor condensation have found widespread applications for generation of nanophase materials. The formation of quantum dots via aerosol approaches has also been demonstrated. The theoretical understanding of gas-to-particle conversion routes has advanced to include the finite rate of particle fusion or sintering occurring after collisions of particles. The modeling of spray pyrolysis systems has provided insight into the control of particle morphology and reactor design. In this review, these recent developments in aerosol generation of powders and Alms via gas-phase and spray routes are discussed with an emphasis on the material chemistries involved and the synthesis of nanophase materials. |
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| AbstractList | Recent advances in aerosol generation of materials are reviewed. Gas-to-particle and spray processes (spray pyrolysis) for powder generation and various routes for film generation are discussed from the experimental and theoretical perspectives. The range of materials generated by these routes has increased in recent years to include fullerenes and ceramic superconductors. Many metals and various oxide and nonoxide ceramics have also been added to the list of materials generated by gas-phase routes. Established aerosol routes such as vapor condensation have found widespread applications for generation of nanophase materials. The formation of quantum dots via aerosol approaches has also been demonstrated. The theoretical understanding of gas-to-particle conversion routes has advanced to include the finite rate of particle fusion or sintering occurring after collisions of particles. The modeling of spray pyrolysis systems has provided insight into the control of particle morphology and reactor design. In this review, these recent developments in aerosol generation of powders and films via gas-phase and spray routes are discussed with an emphasis on the material chemistries involved and the synthesis of nanophase materials. 351 refs., 20 figs. Recent advances in aerosol generation of materials are reviewed. Gas-to-particle and spray processes (spray pyrolysis) for powder generation and various routes for film generation are discussed from the experimental and theoretical perspectives. The range of materials generated by these routes has increased in recent years to include fullerenes and ceramic superconductors. Many metals and various oxide and nonoxide ceramics have also been added to the list of materials generated by gas-phase routes. Established aerosol routes such as vapor condensation have found widespread applications for generation of nanophase materials. The formation of quantum dots via aerosol approaches has also been demonstrated. The theoretical understanding of gas-to-particle conversion routes has advanced to include the finite rate of particle fusion or sintering occurring after collisions of particles. The modeling of spray pyrolysis systems has provided insight into the control of particle morphology and reactor design. In this review, these recent developments in aerosol generation of powders and Alms via gas-phase and spray routes are discussed with an emphasis on the material chemistries involved and the synthesis of nanophase materials. |
| Author | Pluym, Tammy Xiong, Yun Kodas, Toivo Gurav, Abhijit |
| Author_xml | – sequence: 1 givenname: Abhijit surname: Gurav fullname: Gurav, Abhijit organization: Chemical Engineering Department , Center for Micro-Engineered Ceramics, University of New Mexico – sequence: 2 givenname: Toivo surname: Kodas fullname: Kodas, Toivo organization: Chemical Engineering Department , Center for Micro-Engineered Ceramics, University of New Mexico – sequence: 3 givenname: Tammy surname: Pluym fullname: Pluym, Tammy organization: Chemical Engineering Department , Center for Micro-Engineered Ceramics, University of New Mexico – sequence: 4 givenname: Yun surname: Xiong fullname: Xiong, Yun organization: Chemical Engineering Department , Center for Micro-Engineered Ceramics, University of New Mexico |
| BackLink | https://www.osti.gov/biblio/5610442$$D View this record in Osti.gov |
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| Snippet | Recent advances in aerosol generation of materials are reviewed. Gas-to-particle and spray processes (spray pyrolysis) for powder generation and various routes... |
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| SubjectTerms | 360000 - Materials 400201 - Chemical & Physicochemical Properties AEROSOLS CARBON CERAMICS CHEMICAL REACTIONS COLLOIDS DECOMPOSITION DISPERSIONS ELEMENTS FABRICATION FULLERENES HIGH-TC SUPERCONDUCTORS INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY MANUFACTURING MATERIALS MATERIALS SCIENCE MATHEMATICAL MODELS METALS MORPHOLOGY NONMETALS POWDERS PROCESSING PYROLYSIS SINTERING SOLS SPRAYS SUPERCONDUCTORS SYNTHESIS THERMOCHEMICAL PROCESSES |
| Title | Aerosol Processing of Materials |
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