Íomhá Chlúdaigh

Effects of hydrogen flowrate on carbon nanotube production at low temperature via floating catalyst chemical vapor deposition method

Well-aligned multiwall carbon nanotubes (CNTs) were successfully synthesized by floating catalyst chemical vapour deposition method at 600 0c. In this research, benzene and ferrocene were used as carbon source and catalyst respectively. Hydrogen flow rate and preheating temperature were considered a...

Cur síos iomlán

Saved in:

Sonraí Bibleagrafaíochta
Príomhúdar:	Zadeh, Elmira Habashi
Formáid:	Thesis
Teanga:	English
Foilsithe:	2014
Rochtain Ar Líne:	http://ethesis.upm.edu.my/id/eprint/9632/1/FK%202014%20144.pdf
Clibeanna:	Cuir Clib Leis Gan Chlibeanna, Bí ar an gcéad duine leis an taifead seo a chlibeáil!

Míreanna Comhchosúla

Effects of hydrogen flowrate on carbon nanotube production at low temperature via floating catalyst chemical vapor deposition method
le: Zadeh, Elmira Habashi
Foilsithe: (2014)

Effects of hydrogen flowrate on carbon nanotube production at low temperature via floating catalyst chemical vapor deposition method /
le: Zadeh, Elmira Habashi.
Foilsithe: (2014)

Low-temperature synthesis of carbon nanotubes via floating catalyst chemical vapor deposition method
le: Rashid, A. Mahmood, et al.
Foilsithe: (2011)

Low-temperature synthesis of carbon nanotubes via floating catalyst-chemical vapor deposition method
le: Atiyah, Mahmood Rashid
Foilsithe: (2010)

Low-temperature synthesis of carbon nanotubes via floating catalyst-chemical vapor deposition method
le: Atiyah, Mahmood Rashid
Foilsithe: (2010)

Low-temperature synthesis of carbon nanotubes via floating catalyst-chemical vapor deposition method /
le: Atiyah, Mahmood Rashid

Low temperature growth of vertically aligned carbon nanotubes via floating catalyst chemical vapor deposition method.
le: Awang Biak, Dayang Radiah, et al.
Foilsithe: (2011)

Floating catalyst chemical vapor deposition method of synthesizing carbon nanotubes and carbon nanofibers-CVD.
le: Ahmadun, Fakhru'l-Razi, et al.
Foilsithe: (2004)

Effect Of Hydrogen Flow Rate On The Quality Of Carbon Nanotubes Produced Using The Floating Catalyst Chemical Vapor Deposition Method
le: Raja Othman, Raja Nor Izawati
Foilsithe: (2007)

Effect Of Hydrogen Flow Rate On The Quality Of Carbon Nanotubes Produced Using The Floating Catalyst Chemical Vapor Deposition Method
le: Raja Othman, Raja Nor Izawati
Foilsithe: (2007)

Effect of hydrogen flow rate on the quality of carbon nanotubes produced using the floating catalyst chemical vapor deposition method /
le: Raja Nor Izawati Raja Othman.

Investigation of floating catalyst chemical vapor deposition for development of carbon nanotube-coated carbon fibre reinforced composite /
le: Siti Norazlian Ismail.

Synthesis and characterzation of carbon nanotube and graphenated carbon nanotube superfibre via floating catalyst chemical vapour deposition method
le: Ibrahim, Nur Izzaiti
Foilsithe: (2020)

Synthesis and characterzation of carbon nanotube and graphenated carbon nanotube superfibre via floating catalyst chemical vapour deposition method
le: Nur Izzaiti, Ibrahim
Foilsithe: (2020)

Synthesis and characterzation of carbon nanotube and graphenated carbon nanotube superfibre via floating catalyst chemical vapour deposition method /
le: Nur Izzaiti Ibrahim,

Direct synthesis of carbon nanotube aerogel using floating catalyst chemical vapor deposition: effect of gas flow rate
le: Abdullah, Hayder Baqer, et al.
Foilsithe: (2020)

Synthesis and characterization of carbon nanotube aerogel from waste engine oil via floating catalyst chemical vapor deposition for oil spill removal
le: Abdullah, Hayder Baqer
Foilsithe: (2017)

Synthesis and characterization of carbon nanotube aerogel from waste engine oil via floating catalyst chemical vapor deposition for oil spill removal
le: Abdullah, Hayder Baqer
Foilsithe: (2017)

Synthesis and characterization of carbon nanotube aerogel from waste engine oil via floating catalyst chemical vapor deposition for oil spill removal /
le: Abdullah, Hayder Baqer.
Foilsithe: (2018)

Effects Of Molar Ratio Of Iron Catalyst On Synthesis Of Carbon Nanotubes Via Catalytic Chemical Vapor Deposition
le: Toussi, Setareh Monshi
Foilsithe: (2010)

Effects Of Molar Ratio Of Iron Catalyst On Synthesis Of Carbon Nanotubes Via Catalytic Chemical Vapor Deposition
le: Toussi, Setareh Monshi
Foilsithe: (2010)

Effects of molar ratio of iron catalyst on synthesis of carbon nanotubes via catalytic chemical vapor deposition /
le: Toussi, Setareh Monshi.

Synthesis and characterization of carbon nanotubes in a vertical floating catalyst chemical vapour deposition reactor
le: Ahmed, Thamer H.
Foilsithe: (2011)

Synthesis and characterization of carbon nanotubes in a vertical floating catalyst chemical vapour deposition reactor
le: Ahmed, Thamer H.
Foilsithe: (2011)

Synthesis and characterization of carbon nanotubes in a vertical floating catalyst chemical vapour deposition reactor /
le: Ahmed, Thamer H.

Catalyst effect on carbon nanomaterials production by chemical vapor deposition
le: Hazan, Mohammad Adib, et al.
Foilsithe: (2017)

Palm oil as the carbon source for the synthesis of carbon nanotubes using floating catalyst - chemical vapour deposition method
le: Mohd Zobir, Syazwan Afif, et al.
Foilsithe: (2010)

ITO islands as floating electrodes to deposit aligned carbon nanotubes for photovoltaic applications
le: Abdulhameed, Abdullah, et al.
Foilsithe: (2019)

Photochemical vapor deposition /
le: Eden, J. G.
Foilsithe: (1992)

Synthesis and characterization of carbon nanotube from waste cooking oil using floating catalyst chemical vapour deposition method
le: Adnan, Noor Lyana
Foilsithe: (2017)

Synthesis and characterization of carbon nanotube from waste cooking oil using floating catalyst chemical vapour deposition method
le: Adnan, Noor Lyana
Foilsithe: (2017)

Synthesis and characterization of carbon nanotube from waste cooking oil using floating catalyst chemical vapour deposition method /
le: Noor Lyana Adnan,
Foilsithe: (2018)

Fluidized bed catalytic chemical vapor deposition synthesis of carbon nanotubes-a review
le: Danafar, Firoozeh, et al.
Foilsithe: (2009)

Carbon nanostructures grown from waste latex via chemical vapor deposition
le: Hazan, Mohammad Adib, et al.
Foilsithe: (2019)

Chemical vapor deposition : principles and applications /
Foilsithe: (1993)

Fluidized bed chemical vapor deposition synthesis of carbon nanotubes and its application for cellulase immobilization
le: Danafar, Firoozeh
Foilsithe: (2010)

Fluidized bed chemical vapor deposition synthesis of carbon nanotubes and its application for cellulase immobilization
le: Danafar, Firoozeh
Foilsithe: (2010)

Fluidized bed chemical vapor deposition synthesis of carbon nanotubes and its application for cellulase immobilization /
le: Danafar, Firoozeh

Effects of temperature, deposition time and catalyst loading on the synthesis of carbon nanotubes in a vertical CVD reactor
le: Hanaei, Hengameh
Foilsithe: (2011)

Effects of temperature, deposition time and catalyst loading on the synthesis of carbon nanotubes in a vertical CVD reactor /
le: Hanaei, Hengameh.