Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives
Graphene and graphenic derivatives have rapidly emerged as an extremely promising system for electronic, optical, thermal, and electromechanical applications. Several approaches have been developed to produce these materials (i.e. scotch tape, CVD, chemical and solvent exfoliation). In this work we...
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Alma Mater Studiorum - Università di Bologna
2012
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ndltd-unibo.it-oai-amsdottorato.cib.unibo.it-46412014-03-24T16:29:58Z Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives Treossi, Emanuele <1974> CHIM/01 Chimica analitica Graphene and graphenic derivatives have rapidly emerged as an extremely promising system for electronic, optical, thermal, and electromechanical applications. Several approaches have been developed to produce these materials (i.e. scotch tape, CVD, chemical and solvent exfoliation). In this work we report a chemical approach to produce graphene by reducing graphene oxide (GO) via thermal or electrical methods. A morphological and electrical characterization of these systems has been performed using different techniques such as SPM, SEM, TEM, Raman and XPS. Moreover, we studied the interaction between graphene derivates and organic molecules focusing on the following aspects: - improvement of optical contrast of graphene on different substrates for rapid monolayer identification1 - supramolecular interaction with organic molecules (i.e. thiophene, pyrene etc.)4 - covalent functionalization with optically active molecules2 - preparation and characterization of organic/graphene Field Effect Transistors3-5 Graphene chemistry can potentially allow seamless integration of graphene technology in organic electronics devices to improve device performance and develop new applications for graphene-based materials. [1] E. Treossi, M. Melucci, A. Liscio, M. Gazzano, P. Samorì, and V. Palermo, J. Am. Chem. Soc., 2009, 131, 15576. [2] M. Melucci, E. Treossi, L. Ortolani, G. Giambastiani, V. Morandi, P. Klar, C. Casiraghi, P. Samorì, and V. Palermo, J. Mater. Chem., 2010, 20, 9052. [3] J.M. Mativetsky, E. Treossi, E. Orgiu, M. Melucci, G.P. Veronese, P. Samorì, and V. Palermo, J. Am. Chem. Soc., 2010, 132, 14130. [4] A. Liscio, G.P. Veronese, E. Treossi, F. Suriano, F. Rossella, V. Bellani, R. Rizzoli, P. Samorì and V. Palermo, J. Mater. Chem., 2011, 21, 2924. [5] J.M. Mativetsky, A. Liscio, E. Treossi, E. Orgiu, A. Zanelli, P. Samorì , V. Palermo, J. Am. Chem. Soc., 2011, 133, 14320 Alma Mater Studiorum - Università di Bologna Giorgini, Loris 2012-04-12 Doctoral Thesis PeerReviewed application/pdf en http://amsdottorato.unibo.it/4641/ info:eu-repo/semantics/openAccess |
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NDLTD |
| language |
en |
| format |
Doctoral Thesis |
| sources |
NDLTD |
| topic |
CHIM/01 Chimica analitica |
| spellingShingle |
CHIM/01 Chimica analitica Treossi, Emanuele <1974> Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| description |
Graphene and graphenic derivatives have rapidly emerged as an extremely promising system for electronic, optical, thermal, and electromechanical applications. Several approaches have been developed to produce these materials (i.e. scotch tape, CVD, chemical and solvent exfoliation). In this work we report a chemical approach to produce graphene by reducing graphene oxide (GO) via thermal or electrical methods. A morphological and electrical characterization of these systems has been performed using different techniques such as SPM, SEM, TEM, Raman and XPS.
Moreover, we studied the interaction between graphene derivates and organic molecules focusing on the following aspects:
- improvement of optical contrast of graphene on different substrates for rapid monolayer identification1
- supramolecular interaction with organic molecules (i.e. thiophene, pyrene etc.)4
- covalent functionalization with optically active molecules2
- preparation and characterization of organic/graphene Field Effect Transistors3-5
Graphene chemistry can potentially allow seamless integration of graphene technology in organic electronics devices to improve device performance and develop new applications for graphene-based materials.
[1] E. Treossi, M. Melucci, A. Liscio, M. Gazzano, P. Samorì, and V. Palermo, J. Am. Chem. Soc., 2009, 131, 15576. [2] M. Melucci, E. Treossi, L. Ortolani, G. Giambastiani, V. Morandi, P. Klar, C. Casiraghi, P. Samorì, and V. Palermo, J. Mater. Chem., 2010, 20, 9052. [3] J.M. Mativetsky, E. Treossi, E. Orgiu, M. Melucci, G.P. Veronese, P. Samorì, and V. Palermo, J. Am. Chem. Soc., 2010, 132, 14130. [4] A. Liscio, G.P. Veronese, E. Treossi, F. Suriano, F. Rossella, V. Bellani, R. Rizzoli, P. Samorì and V. Palermo, J. Mater. Chem., 2011, 21, 2924.
[5] J.M. Mativetsky, A. Liscio, E. Treossi, E. Orgiu, A. Zanelli, P. Samorì , V. Palermo, J. Am. Chem. Soc., 2011, 133, 14320
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| author2 |
Giorgini, Loris |
| author_facet |
Giorgini, Loris Treossi, Emanuele <1974> |
| author |
Treossi, Emanuele <1974> |
| author_sort |
Treossi, Emanuele <1974> |
| title |
Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| title_short |
Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| title_full |
Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| title_fullStr |
Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| title_full_unstemmed |
Chemical Production and Microelectronic Applications of Graphene and Nano-Graphene Derivatives |
| title_sort |
chemical production and microelectronic applications of graphene and nano-graphene derivatives |
| publisher |
Alma Mater Studiorum - Università di Bologna |
| publishDate |
2012 |
| url |
http://amsdottorato.unibo.it/4641/ |
| work_keys_str_mv |
AT treossiemanuele1974 chemicalproductionandmicroelectronicapplicationsofgrapheneandnanographenederivatives |
| _version_ |
1716654512489365504 |