New materials, studies and applications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition

Evaldo Jose Corat

New materials, studies and applications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition

Principal Investigator:	Evaldo Jose Corat Other researcher's projects at the Virtual Library
Institution:	Ministério da Ciência e Tecnologia (Brasil). Instituto Nacional de Pesquisas Espaciais (INPE)
Co-Principal Investigators:	Vladimir Jesus Trava Airoldi; Neidenêi Gomes Ferreira
Field of knowledge:	Engineering - Materials and Metallurgical Engineering
Support type:	Research Projects - Thematic Awards
Grant number:	07/00013-4
Duration:	August 2007, 01 - May 2012, 31
Scholarship(s) connected:	11/01238-5 - Studies on nano-scale of DLC films with nano particles for space applications 11/09908-0 - Nanocrystalline diamond films doped with boron: structural properties, surface and electrochemical measurements 10/18462-2 - Diamond growth on titanium with controlled variation of boron and carbon with sp2/sp3 hybridization as high performance electrode applied to water treatment + connected processes 10/05391-0 - Consolidation of copper nanoparticles on carbon fibers and diamond for nitrate detection in waste water 10/16867-5 - Diamond/titanium electrode applied to wastewater treatment 10/20345-4 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 09/17584-0 - Carbon nanotubes, carbon fibers, and polyaniline composites as electrode in supply and conversion energy devices 09/17160-5 - Doped e not doped diamond films micro- and nano-structured on carbon fibers for conversion energy device application 09/16889-1 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 09/16986-7 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 09/17004-3 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 09/11136-5 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 09/03745-1 - Structural and electrochemical properties of boron-doped nanocrystalline diamond films 09/10020-3 - New materials, studies and aplications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition 08/11642-5 - Development of structures based on carbon nanotubes, biorreabsorble polymer and carbon fibers for studies with regenerative cells and hematopoietic stem cell 08/05533-9 - Analytical tribochemistry: tribological parameters dependence with surface modification study on carbon based films 08/04788-3 - Development of composite structural adhesives with epoxi and carbon nanotubes 08/04968-1 - Growth of micro/nanostructured diamond and carbon nanotubes on pure porous tridimensionaly titanium for wastewater treatment applications 08/04525-2 - Improvement of interface preparation parameters for DLC films nucleation on Ti6Al4V surface 07/07667-0 - Study of DLC films growth with nanocrystalline diamond for technological and industrial applications 07/06562-0 - Study of the hybrid lubrication using DLC films with space oils and biomimetics liquids - connected processes
Grant number bound:	09/10195-8

Abstract
This proposal is devoted to the continuation and increment of research, development and innovation related with our work concerning CVD diamond and related materials, including the nanostructured carbon ones, which involve our Institution and other neighbor Research Groups. It is intended to get financial support for: new equipment, including all kinds of materials and services to improve new reactors, assembling, test and operation; different kinds of characterization techniques related with scientific and technological innovation; student formation; national and international cooperation. The proposal emphasizes: the development of techniques to grow CVD diamond, nano-crystalline diamond (NCD), diamond-like carbon (DLC) and carbon nanotubes (NTC); studies of adherence and stress of CVD diamond, NCD and DLC; fundamental studies in the tribology of these materials for space and industrial applications; electrochemical studies of boron doped CVD diamond and NCD for energy storage and effluent treatment; and studies of NTC in structural and tribological composites. All items need fundamental research and show high innovation potential and opportunity for technological transfer. (AU)

Scientific publications (14):

(References retrieved automatically from Web of Science and Google Scholar through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)

LOBO, ANDERSON OLIVEIRA; RAMOS, SANDRA CRISTINA; ANTUNES, ERICA FREIRE; MARCIANO, FERNANDA ROBERTA; TRAVA-AIROLDI, VLADIMIR JESUS; CORAT, EVALDO JOSE. Fast functionalization of vertically aligned multiwalled carbon nanotubes using oxygen plasma. Materials Letters, v. 70, p. 89-93, MAR 1 2012.

BARBOSA, D. C.; HAMMER, P.; TRAVA-AIROLDI, V. J.; CORAT, E. J. The valuable role of renucleation rate in ultrananocrystalline diamond growth. DIAMOND AND RELATED MATERIALS, v. 23, p. 112-119, MAR 2012.

MATSUSHIMA, J. T.; SANTOS, L. C. D.; COUTO, A. B.; BALDAN, M. R.; FERREIRA, N. G. Electrodeposition of Cu Nanoparticles on BDD Electrodes: Reactions and Nucleation Mechanism. Journal of the Electrochemical Society, v. 159, n. 4, p. D246-D252, 2012.

MATSUSHIMA‚ J.T.; SANTOS‚ L.C.D.; COUTO‚ A.B.; BALDAN‚ M.R.; FERREIRA‚ N.G. INFLUÊNCIA DO ELETRÓLITO NA ELETRODEPOSIÇÃO DE NANOPARTÍCULAS DE CU SOBRE ELETRODO DE DIAMANTE DOPADO COM BORO. Química Nova, v. 35, n. 1, p. 11-16, 2012.

RAMOS, S. C.; LOBO, A. O.; DE VASCONCELOS, G.; ANTUNES, E. F.; TRAVA-AIROLDI, V. J.; CORAT, E. J. Influence of polar groups on the wetting properties of vertically aligned multiwalled carbon nanotube surfaces. THEORETICAL CHEMISTRY ACCOUNTS, v. 130, n. 4-6, p. 1061-1069, DEC 2011.

LOBO, A. O.; MARCIANO, F. R.; REGIANI, I.; RAMOS, S. C.; MATSUSHIMA, J. T.; CORAT, E. J. Proposed model for growth preference of plate-like nanohydroxyapatite crystals on superhydrophilic vertically aligned carbon nanotubes by electrodeposition. THEORETICAL CHEMISTRY ACCOUNTS, v. 130, n. 4-6, p. 1071-1082, DEC 2011.

LOBO, A. O.; MARCIANO, F. R.; RAMOS, S. C.; MACHADO, M. M.; CORAT, E. J.; CORAT, M. A. F. Increasing mouse embryonic fibroblast cells adhesion on superhydrophilic vertically aligned carbon nanotube films. Materials Science and Engineering : C, v. 31, n. 7, p. 1505-1511, OCT 10 2011.

RAMOS, S. C.; VASCONCELOS, G.; ANTUNES, E. F.; LOBO, A. O.; TRAVA-AIROLDI, V. J.; CORAT, E. J. CO(2) laser treatment for stabilization of the superhydrophobicity of carbon nanotube surfaces. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, v. 28, n. 6, p. 1153-1157, NOV 2010.

BRAGA, N. A.; CAIRO, C. A. A.; MATSUSHIMA, J. T.; BALDAN, M. R.; FERREIRA, N. G. Diamond/porous titanium three-dimensional hybrid electrodes. Journal of Solid State Electrochemistry, v. 14, n. 2, p. 313-321, FEB 2010.

DE RESENDE‚ V.G.; ANTUNES‚ E.F.; DE OLIVEIRA LOBO‚ A.; OLIVEIRA‚ D.A.L.; TRAVA-AIROLDI‚ V.J.; CORAT‚ E.J. Growth of carbon nanotube forests on carbon fibers with an amorphous silicon interface. Carbon, v. 48, n. 12, p. 3655-3658, 2010.

RAMOS‚ SC; VASCONCELOS‚ G.; ANTUNES‚ EF; LOBO‚ AO; TRAVA-AIROLDI‚ VJ; CORAT‚ EJ. Total re-establishment of superhydrophobicity of vertically-aligned carbon nanotubes by Co2 laser treatment. SURFACE & COATINGS TECHNOLOGY, v. 204, n. 18-19, p. 3073-3077, 2010.

MATSUSHIMA, J. T.; SILVA, W. M.; AZEVEDO, A. F.; BALDAN, M. R.; FERREIRA, N. G. The influence of boron content on electroanalytical detection of nitrate using BDD electrodes. Applied Surface Science, v. 256, n. 3, p. 757-762, NOV 15 2009.

BRAGA, N. A.; CAIRO, C. A. A.; ALMEIDA, E. C.; BALDAN, M. R.; FERREIRA, N. G. Temperature influence on the interlayer and surface morphology of diamond coating on 3D porous titanium substrates. DIAMOND AND RELATED MATERIALS, v. 18, n. 9, p. 1065-1069, SEP 2009.

AZEVEDO, A. F.; MATSUSHIMA, J. T.; VICENTIN, F. C.; BALDAN, M. R.; FERREIRA, N. G. Surface characterization of NCD films as a function of sp(2)/sp(3) carbon and oxygen content. Applied Surface Science, v. 255, n. 13-14, p. 6565-6570, APR 15 2009.

CDi/FAPESP - Documentation and Information Center, The State of São Paulo Research Foundation

R. Pio XI, 1500 - Alto da Lapa - CEP 05468-901 - São Paulo/SP - Brasil
cdi@fapesp.br - Contact us

Related content

New materials, studies and applications of CVD diamond, diamond-like-carbon (DLC) and nanostructured carbon obtained by chemical vapor deposition

Evaldo Jose Corat

Vladimir Jesus Trava Airoldi; Neidenêi Gomes Ferreira

LOBO, ANDERSON OLIVEIRA; RAMOS, SANDRA CRISTINA; ANTUNES, ERICA FREIRE; MARCIANO, FERNANDA ROBERTA; TRAVA-AIROLDI, VLADIMIR JESUS; CORAT, EVALDO JOSE. Fast functionalization of vertically aligned multiwalled carbon nanotubes using oxygen plasma. Materials Letters, v. 70, p. 89-93, MAR 1 2012.

BARBOSA, D. C.; HAMMER, P.; TRAVA-AIROLDI, V. J.; CORAT, E. J. The valuable role of renucleation rate in ultrananocrystalline diamond growth. DIAMOND AND RELATED MATERIALS, v. 23, p. 112-119, MAR 2012.

MATSUSHIMA, J. T.; SANTOS, L. C. D.; COUTO, A. B.; BALDAN, M. R.; FERREIRA, N. G. Electrodeposition of Cu Nanoparticles on BDD Electrodes: Reactions and Nucleation Mechanism. Journal of the Electrochemical Society, v. 159, n. 4, p. D246-D252, 2012.

MATSUSHIMA‚ J.T.; SANTOS‚ L.C.D.; COUTO‚ A.B.; BALDAN‚ M.R.; FERREIRA‚ N.G. INFLUÊNCIA DO ELETRÓLITO NA ELETRODEPOSIÇÃO DE NANOPARTÍCULAS DE CU SOBRE ELETRODO DE DIAMANTE DOPADO COM BORO. Química Nova, v. 35, n. 1, p. 11-16, 2012.

RAMOS, S. C.; LOBO, A. O.; DE VASCONCELOS, G.; ANTUNES, E. F.; TRAVA-AIROLDI, V. J.; CORAT, E. J. Influence of polar groups on the wetting properties of vertically aligned multiwalled carbon nanotube surfaces. THEORETICAL CHEMISTRY ACCOUNTS, v. 130, n. 4-6, p. 1061-1069, DEC 2011.

LOBO, A. O.; MARCIANO, F. R.; RAMOS, S. C.; MACHADO, M. M.; CORAT, E. J.; CORAT, M. A. F. Increasing mouse embryonic fibroblast cells adhesion on superhydrophilic vertically aligned carbon nanotube films. Materials Science and Engineering : C, v. 31, n. 7, p. 1505-1511, OCT 10 2011.

RAMOS, S. C.; VASCONCELOS, G.; ANTUNES, E. F.; LOBO, A. O.; TRAVA-AIROLDI, V. J.; CORAT, E. J. CO(2) laser treatment for stabilization of the superhydrophobicity of carbon nanotube surfaces. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, v. 28, n. 6, p. 1153-1157, NOV 2010.

BRAGA, N. A.; CAIRO, C. A. A.; MATSUSHIMA, J. T.; BALDAN, M. R.; FERREIRA, N. G. Diamond/porous titanium three-dimensional hybrid electrodes. Journal of Solid State Electrochemistry, v. 14, n. 2, p. 313-321, FEB 2010.

DE RESENDE‚ V.G.; ANTUNES‚ E.F.; DE OLIVEIRA LOBO‚ A.; OLIVEIRA‚ D.A.L.; TRAVA-AIROLDI‚ V.J.; CORAT‚ E.J. Growth of carbon nanotube forests on carbon fibers with an amorphous silicon interface. Carbon, v. 48, n. 12, p. 3655-3658, 2010.

RAMOS‚ SC; VASCONCELOS‚ G.; ANTUNES‚ EF; LOBO‚ AO; TRAVA-AIROLDI‚ VJ; CORAT‚ EJ. Total re-establishment of superhydrophobicity of vertically-aligned carbon nanotubes by Co2 laser treatment. SURFACE & COATINGS TECHNOLOGY, v. 204, n. 18-19, p. 3073-3077, 2010.

MATSUSHIMA, J. T.; SILVA, W. M.; AZEVEDO, A. F.; BALDAN, M. R.; FERREIRA, N. G. The influence of boron content on electroanalytical detection of nitrate using BDD electrodes. Applied Surface Science, v. 256, n. 3, p. 757-762, NOV 15 2009.

BRAGA, N. A.; CAIRO, C. A. A.; ALMEIDA, E. C.; BALDAN, M. R.; FERREIRA, N. G. Temperature influence on the interlayer and surface morphology of diamond coating on 3D porous titanium substrates. DIAMOND AND RELATED MATERIALS, v. 18, n. 9, p. 1065-1069, SEP 2009.

AZEVEDO, A. F.; MATSUSHIMA, J. T.; VICENTIN, F. C.; BALDAN, M. R.; FERREIRA, N. G. Surface characterization of NCD films as a function of sp(2)/sp(3) carbon and oxygen content. Applied Surface Science, v. 255, n. 13-14, p. 6565-6570, APR 15 2009.