PLASMA PROCESSING OF NANOMATERIALS /
The research field of nanomaterials (NMs) has established swiftly over the last several years due to the unique electrical, optical, magnetic and catalytic properties of these materials. Among the various methods currently available for NM synthesis, the techniques for plasma generation in liquids a...
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| Language: | eng |
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United Kingdom : Koros Press Limited,
2021
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| _version_ | 1796764149123907584 |
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| author | Zhu, Tao, contributor 642537 Li, Xiaoyang, contributor 642538 Zhao, Wenjuan, contributor 642539 Xia, Ni, contributor 642540 Wang, Xiaojia, contributor 642541 Hussein, R. O., contributor 642542 Northwood, D. O., contributor 642543 Nie, X., contributor 642544 Zhukeshov, Anuar, contributor 642545 Gabdullina, Asylgul, contributor 642546 Amrenova, Assem, contributor 642547 Pak, Svetlana, contributor 642548 Pitek, Andrzej S., contributor 642549 O'Connell, David, contributor 642550 Mahon, Eugene, contributor 642551 Monopoli, Marco P., contributor 642552 Bombelli, Francesca Baldelli, contributor 642553 Dawson, Kenneth A., contributor 642554 Laloy, Julie, contributor 642555 Haguet, Helene, contributor 642557 Alpan, Lutfye, contributor 642558 Raichman, Daniel, contributor 642559 Dogne, JeanMichel, contributor 642560 Lellouche, JeanPaul, contributor 642561 Hoque, Md Enamul, contributor 642562 Tan, Jie Ye, contributor 642535 Leng, Chuan Yong, contributor 642536 Khairul Zaman Mohd. Dahlan, contributor 409283 Jiang, Yi, contributor 642563 Loos, Katja, contributor 497219 Eshita, Yuki, contributor 642564 Ji, Rui-Cheng, contributor 642565 Onishi, Masayasu, contributor 642566 Mizuno, Masaaki, contributor 642567 Yoshida, Jun, contributor 642568 Kubota, Naoji, contributor 642569 Onishi, Yasuhiko, contributor 642570 |
| author_facet | Zhu, Tao, contributor 642537 Li, Xiaoyang, contributor 642538 Zhao, Wenjuan, contributor 642539 Xia, Ni, contributor 642540 Wang, Xiaojia, contributor 642541 Hussein, R. O., contributor 642542 Northwood, D. O., contributor 642543 Nie, X., contributor 642544 Zhukeshov, Anuar, contributor 642545 Gabdullina, Asylgul, contributor 642546 Amrenova, Assem, contributor 642547 Pak, Svetlana, contributor 642548 Pitek, Andrzej S., contributor 642549 O'Connell, David, contributor 642550 Mahon, Eugene, contributor 642551 Monopoli, Marco P., contributor 642552 Bombelli, Francesca Baldelli, contributor 642553 Dawson, Kenneth A., contributor 642554 Laloy, Julie, contributor 642555 Haguet, Helene, contributor 642557 Alpan, Lutfye, contributor 642558 Raichman, Daniel, contributor 642559 Dogne, JeanMichel, contributor 642560 Lellouche, JeanPaul, contributor 642561 Hoque, Md Enamul, contributor 642562 Tan, Jie Ye, contributor 642535 Leng, Chuan Yong, contributor 642536 Khairul Zaman Mohd. Dahlan, contributor 409283 Jiang, Yi, contributor 642563 Loos, Katja, contributor 497219 Eshita, Yuki, contributor 642564 Ji, Rui-Cheng, contributor 642565 Onishi, Masayasu, contributor 642566 Mizuno, Masaaki, contributor 642567 Yoshida, Jun, contributor 642568 Kubota, Naoji, contributor 642569 Onishi, Yasuhiko, contributor 642570 |
| author_sort | Zhu, Tao, contributor 642537 |
| collection | OCEAN |
| description | The research field of nanomaterials (NMs) has established swiftly over the last several years due to the unique electrical, optical, magnetic and catalytic properties of these materials. Among the various methods currently available for NM synthesis, the techniques for plasma generation in liquids are relatively new. Various types of plasma such as arc discharge and glow discharge may be used for the production of metals, alloys, oxides, inorganic, carbonaceous and composite NMs. Pure metallic and metal alloy nanoparticles (NPs) have been used as catalysis materials, microelectronics, optoelectronics and magnets, as well as conductive pastes, fuel cells and battery electrodes. Plasma technology is currently gaining considerable attention as a prominent ?green" synthesis method for nanomaterials, due to its identifying properties when contrasted to solid, liquid and gas phase synthesis approaches. Plasma technology enables a wide range of academic and industrial applications in the fields of electronics, textiles, automotive and aerospace. In addition, the combination of nanomaterials and plasma in biomedical applications demonstrates a number of synergistic effects and improved treatment efficiency. |
| first_indexed | 2024-03-05T17:05:54Z |
| format | |
| id | KOHA-OAI-TEST:600345 |
| institution | Universiti Teknologi Malaysia - OCEAN |
| language | eng |
| last_indexed | 2024-03-05T17:05:54Z |
| publishDate | 2021 |
| publisher | United Kingdom : Koros Press Limited, |
| record_format | dspace |
| spelling | KOHA-OAI-TEST:6003452022-09-27T13:16:08ZPLASMA PROCESSING OF NANOMATERIALS / Zhu, Tao, contributor 642537 Li, Xiaoyang, contributor 642538 Zhao, Wenjuan, contributor 642539 Xia, Ni, contributor 642540 Wang, Xiaojia, contributor 642541 Hussein, R. O., contributor 642542 Northwood, D. O., contributor 642543 Nie, X., contributor 642544 Zhukeshov, Anuar, contributor 642545 Gabdullina, Asylgul, contributor 642546 Amrenova, Assem, contributor 642547 Pak, Svetlana, contributor 642548 Pitek, Andrzej S., contributor 642549 O'Connell, David, contributor 642550 Mahon, Eugene, contributor 642551 Monopoli, Marco P., contributor 642552 Bombelli, Francesca Baldelli, contributor 642553 Dawson, Kenneth A., contributor 642554 Laloy, Julie, contributor 642555 Haguet, Helene, contributor 642557 Alpan, Lutfye, contributor 642558 Raichman, Daniel, contributor 642559 Dogne, JeanMichel, contributor 642560 Lellouche, JeanPaul, contributor 642561 Hoque, Md Enamul, contributor 642562 Tan, Jie Ye, contributor 642535 Leng, Chuan Yong, contributor 642536 Khairul Zaman Mohd. Dahlan, contributor 409283 Jiang, Yi, contributor 642563 Loos, Katja, contributor 497219 Eshita, Yuki, contributor 642564 Ji, Rui-Cheng, contributor 642565 Onishi, Masayasu, contributor 642566 Mizuno, Masaaki, contributor 642567 Yoshida, Jun, contributor 642568 Kubota, Naoji, contributor 642569 Onishi, Yasuhiko, contributor 642570 United Kingdom : Koros Press Limited,2021©2021engThe research field of nanomaterials (NMs) has established swiftly over the last several years due to the unique electrical, optical, magnetic and catalytic properties of these materials. Among the various methods currently available for NM synthesis, the techniques for plasma generation in liquids are relatively new. Various types of plasma such as arc discharge and glow discharge may be used for the production of metals, alloys, oxides, inorganic, carbonaceous and composite NMs. Pure metallic and metal alloy nanoparticles (NPs) have been used as catalysis materials, microelectronics, optoelectronics and magnets, as well as conductive pastes, fuel cells and battery electrodes. Plasma technology is currently gaining considerable attention as a prominent ?green" synthesis method for nanomaterials, due to its identifying properties when contrasted to solid, liquid and gas phase synthesis approaches. Plasma technology enables a wide range of academic and industrial applications in the fields of electronics, textiles, automotive and aerospace. In addition, the combination of nanomaterials and plasma in biomedical applications demonstrates a number of synergistic effects and improved treatment efficiency.Includes references and index.The research field of nanomaterials (NMs) has established swiftly over the last several years due to the unique electrical, optical, magnetic and catalytic properties of these materials. Among the various methods currently available for NM synthesis, the techniques for plasma generation in liquids are relatively new. Various types of plasma such as arc discharge and glow discharge may be used for the production of metals, alloys, oxides, inorganic, carbonaceous and composite NMs. Pure metallic and metal alloy nanoparticles (NPs) have been used as catalysis materials, microelectronics, optoelectronics and magnets, as well as conductive pastes, fuel cells and battery electrodes. Plasma technology is currently gaining considerable attention as a prominent ?green" synthesis method for nanomaterials, due to its identifying properties when contrasted to solid, liquid and gas phase synthesis approaches. Plasma technology enables a wide range of academic and industrial applications in the fields of electronics, textiles, automotive and aerospace. In addition, the combination of nanomaterials and plasma in biomedical applications demonstrates a number of synergistic effects and improved treatment efficiency.PSZJBLNanostructuresNanotechnologyPlasma chemistryURN:ISBN:9781789223323 |
| spellingShingle | Nanostructures Nanotechnology Plasma chemistry Zhu, Tao, contributor 642537 Li, Xiaoyang, contributor 642538 Zhao, Wenjuan, contributor 642539 Xia, Ni, contributor 642540 Wang, Xiaojia, contributor 642541 Hussein, R. O., contributor 642542 Northwood, D. O., contributor 642543 Nie, X., contributor 642544 Zhukeshov, Anuar, contributor 642545 Gabdullina, Asylgul, contributor 642546 Amrenova, Assem, contributor 642547 Pak, Svetlana, contributor 642548 Pitek, Andrzej S., contributor 642549 O'Connell, David, contributor 642550 Mahon, Eugene, contributor 642551 Monopoli, Marco P., contributor 642552 Bombelli, Francesca Baldelli, contributor 642553 Dawson, Kenneth A., contributor 642554 Laloy, Julie, contributor 642555 Haguet, Helene, contributor 642557 Alpan, Lutfye, contributor 642558 Raichman, Daniel, contributor 642559 Dogne, JeanMichel, contributor 642560 Lellouche, JeanPaul, contributor 642561 Hoque, Md Enamul, contributor 642562 Tan, Jie Ye, contributor 642535 Leng, Chuan Yong, contributor 642536 Khairul Zaman Mohd. Dahlan, contributor 409283 Jiang, Yi, contributor 642563 Loos, Katja, contributor 497219 Eshita, Yuki, contributor 642564 Ji, Rui-Cheng, contributor 642565 Onishi, Masayasu, contributor 642566 Mizuno, Masaaki, contributor 642567 Yoshida, Jun, contributor 642568 Kubota, Naoji, contributor 642569 Onishi, Yasuhiko, contributor 642570 PLASMA PROCESSING OF NANOMATERIALS / |
| title | PLASMA PROCESSING OF NANOMATERIALS / |
| title_full | PLASMA PROCESSING OF NANOMATERIALS / |
| title_fullStr | PLASMA PROCESSING OF NANOMATERIALS / |
| title_full_unstemmed | PLASMA PROCESSING OF NANOMATERIALS / |
| title_short | PLASMA PROCESSING OF NANOMATERIALS / |
| title_sort | plasma processing of nanomaterials |
| topic | Nanostructures Nanotechnology Plasma chemistry |
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