Document Type : Original Article
Bao Y. X., Shujiang D., Hao B. W., Xin W. &Xiong W. D.(2012). Hierarchically
structured Pt/CNT@TiO 2 nanocatalysts with ultrahigh stability for low-temperature
fuel cells, RSC Advances, 2,792–796.
Bo C., Tianyou P. , Xiaohu Z. , Jing M., Kan L. & Xungao Z. (2013).Synthesis of
C60-decorated SWCNTs (C60-d-CNTs) and its TiO2-based nanocomposite with
structured Pt/CNT@TiO 2 nanocatalysts with ultrahigh stability for low-temperature
fuel cells, RSC Advances, 2,792–796.
Bo C., Tianyou P. , Xiaohu Z. , Jing M., Kan L. & Xungao Z. (2013).Synthesis of
C60-decorated SWCNTs (C60-d-CNTs) and its TiO2-based nanocomposite with
enhanced photocatalytic activity for hydrogen production'', Dalton Transactions,
42(10), 3402-3409.
Chen X., Shen S., Guo L., & Samuel S. M. (2010). Semiconductor-based
Photocatalytic Hydrogen Generation.Chemical Reviews, 110 (11), 6503–6570.
Chiari, L. &Zecca A. (2011). A. Constraints of fossil fuels depletion on global
warming projections. Energy Policy, 39(9), 5026–5034.
Dirk M. Guldi& Martín N.(2010). Carbon Nanotubes and Related Structures
Synthesis, Characterization, Functionalization, and Applications. WILEY-VCH
Verlag GmbH & Co. KGaA, Weinheim. Kauffman D. R. & Star A.(2008).Carbon
nanotube gas and vapor sensors. AngewandteChemie International Edition, 47,6550-
6570.
Falah H. Hussein, Firas H. Abdulrazzak, and Ayad F. Alkaim, (2018).
Nanomaterials: Biomedical and Environmental Applications, chapter 1:
Nanomaterials: Synthesis and Characterization,1 ed. Welly .
Firas H. Abdulrazzak , Falah H. Hussein , Ayad F. Alkaim , Irina Ivanova , Alexei V.
Emeline & Detlef W. Bahnemann. (2016a) Sonochemical /hydration–dehydration
synthesis of Pt–TiO 2 NPs/decorated carbon nanotubes with enhanced photocatalytic
hydrogen production activity. Photochemical
&PhotobiologicalSciences., 15(11),1347-1357.
Firas H. Abdulrazzak(2016b). Enhance photocatalytic Activity of TiO2 by Carbon
Nanotubes. International Journal of ChemTech Research., 9(3) 431-443.
Firas H. Abdulrazzak, Shahad K Esmail, Halimah A. Dawod, Ahmed M. Abbas &
Mustafa K. K. Almaliki. (2016c).X-ray Analysis for Purification Process of
Synthesized Multi-Walled Carbon Nanotubes by Chemical Vapor Deposition.
International Journal of Theoretical & Applied Sciences, 8(1), 432016-432037 .
Hashimoto K., Irie H., &Fujishima A, (2005). TiO 2 photocatalysis: a historical
overview and future prospects. Japanese Journal of Applied Physics ,
44(12),8269–8285.
42(10), 3402-3409.
Chen X., Shen S., Guo L., & Samuel S. M. (2010). Semiconductor-based
Photocatalytic Hydrogen Generation.Chemical Reviews, 110 (11), 6503–6570.
Chiari, L. &Zecca A. (2011). A. Constraints of fossil fuels depletion on global
warming projections. Energy Policy, 39(9), 5026–5034.
Dirk M. Guldi& Martín N.(2010). Carbon Nanotubes and Related Structures
Synthesis, Characterization, Functionalization, and Applications. WILEY-VCH
Verlag GmbH & Co. KGaA, Weinheim. Kauffman D. R. & Star A.(2008).Carbon
nanotube gas and vapor sensors. AngewandteChemie International Edition, 47,6550-
6570.
Falah H. Hussein, Firas H. Abdulrazzak, and Ayad F. Alkaim, (2018).
Nanomaterials: Biomedical and Environmental Applications, chapter 1:
Nanomaterials: Synthesis and Characterization,1 ed. Welly .
Firas H. Abdulrazzak , Falah H. Hussein , Ayad F. Alkaim , Irina Ivanova , Alexei V.
Emeline & Detlef W. Bahnemann. (2016a) Sonochemical /hydration–dehydration
synthesis of Pt–TiO 2 NPs/decorated carbon nanotubes with enhanced photocatalytic
hydrogen production activity. Photochemical
&PhotobiologicalSciences., 15(11),1347-1357.
Firas H. Abdulrazzak(2016b). Enhance photocatalytic Activity of TiO2 by Carbon
Nanotubes. International Journal of ChemTech Research., 9(3) 431-443.
Firas H. Abdulrazzak, Shahad K Esmail, Halimah A. Dawod, Ahmed M. Abbas &
Mustafa K. K. Almaliki. (2016c).X-ray Analysis for Purification Process of
Synthesized Multi-Walled Carbon Nanotubes by Chemical Vapor Deposition.
International Journal of Theoretical & Applied Sciences, 8(1), 432016-432037 .
Hashimoto K., Irie H., &Fujishima A, (2005). TiO 2 photocatalysis: a historical
overview and future prospects. Japanese Journal of Applied Physics ,
44(12),8269–8285.
Jimmy C. Yu, Jiaguo Y., Lizhi Z. &Wingkei H.(2002).Enhancing effects of water
content and ultrasonic irradiation on the photocatalytic activity of nano-sized TiO2
powders. Journal of Photochemistry and Photobiology. A: Chemistry, 148,263–271.
Lin K.N., Liou W.J., Yang T.Y., Lin H.M., Lin C.K., Chien S.H., Chen W.C.& Wu
S.H.(2009). Synthesis of hybrid Pt/TiO2 (anatase)/MWNTs nanomaterials by a
combined sol–gel and polyol process. Diamond and Related Materials,. 18,312–315.
Luma M. Ahmed, Irina I., Falah H. Hussein, &Detlef W. Bahnemann. (2014). Role
of Platinum Deposited on TiO2 in Photocatalytic Methanol Oxidation and
Dehydrogenation Reactions. International Journal of Photoenergy.(3):1-9.
Nadtochenko V., Denisov N., Sarjusiv O., Gumy D., Pulgarin C. & Kiwi J.(2006).
Laser kinetic spectroscopy of the interfacial charge transfer between membrane cell
walls of E. coli and TiO2. Journal of Photochemistry and Photobiology A:
Chemistry, 181,401–408.
Ong Y. T., Ahmad A.L., Hussein S. Z. & Soon H. T. (2010). A review on carbon
nanotubes in an environmental protection and green engineering perspective.
Brazilian Journal of Chemical Engineering
Ren W. J., Ai Z. H., Jia F. L., Zhang L. Z., Fan X. X. & Zou Z. G. .(2007).Low
temperature preparation and visible light photocatalytic activity of mesoporous
carbon-doped crystalline TiO2. Applied Catalysis
Rowan L.& Aidan W.(2009). Carbonaceous nanomaterials for the enhancement of
TiO2 Photocatalysis. Diamond and Related Materials
Shao F. C., Jian P. L., Kun Q., Wei P. X., Yang L., Wei X. H. & Shu H. Y. (2010).
Large Scale Photochemical Synthesis of M@TiO 2 Nanocomposites (M = Ag, Pd, Au,
Pt) and Their Optical Properties, CO Oxidation Performance, and Antibacterial
Effect. Nano Research, 3(4),244–255.
Shih-Y. L., Ya-Chu Y. , Sheng-Hsin H., & Jon-Yiew G.(2017). Synthesis of
Pt@TiO 2 @CNTs Hierarchical Structure Catalyst by Atomic Layer Deposition and
Their Photocatalytic and Photoelectrochemical Activity'', Nanomat. (Basel) . 7(5)97-
112.
content and ultrasonic irradiation on the photocatalytic activity of nano-sized TiO2
powders. Journal of Photochemistry and Photobiology. A: Chemistry, 148,263–271.
Lin K.N., Liou W.J., Yang T.Y., Lin H.M., Lin C.K., Chien S.H., Chen W.C.& Wu
S.H.(2009). Synthesis of hybrid Pt/TiO2 (anatase)/MWNTs nanomaterials by a
combined sol–gel and polyol process. Diamond and Related Materials,. 18,312–315.
Luma M. Ahmed, Irina I., Falah H. Hussein, &Detlef W. Bahnemann. (2014). Role
of Platinum Deposited on TiO2 in Photocatalytic Methanol Oxidation and
Dehydrogenation Reactions. International Journal of Photoenergy.(3):1-9.
Nadtochenko V., Denisov N., Sarjusiv O., Gumy D., Pulgarin C. & Kiwi J.(2006).
Laser kinetic spectroscopy of the interfacial charge transfer between membrane cell
walls of E. coli and TiO2. Journal of Photochemistry and Photobiology A:
Chemistry, 181,401–408.
Ong Y. T., Ahmad A.L., Hussein S. Z. & Soon H. T. (2010). A review on carbon
nanotubes in an environmental protection and green engineering perspective.
Brazilian Journal of Chemical Engineering
Ren W. J., Ai Z. H., Jia F. L., Zhang L. Z., Fan X. X. & Zou Z. G. .(2007).Low
temperature preparation and visible light photocatalytic activity of mesoporous
carbon-doped crystalline TiO2. Applied Catalysis
Rowan L.& Aidan W.(2009). Carbonaceous nanomaterials for the enhancement of
TiO2 Photocatalysis. Diamond and Related Materials
Shao F. C., Jian P. L., Kun Q., Wei P. X., Yang L., Wei X. H. & Shu H. Y. (2010).
Large Scale Photochemical Synthesis of M@TiO 2 Nanocomposites (M = Ag, Pd, Au,
Pt) and Their Optical Properties, CO Oxidation Performance, and Antibacterial
Effect. Nano Research, 3(4),244–255.
Shih-Y. L., Ya-Chu Y. , Sheng-Hsin H., & Jon-Yiew G.(2017). Synthesis of
Pt@TiO 2 @CNTs Hierarchical Structure Catalyst by Atomic Layer Deposition and
Their Photocatalytic and Photoelectrochemical Activity'', Nanomat. (Basel) . 7(5)97-
112.
Stefano T., Andrea D., Mariangela L., Nicola D., Salvatore G. L. & Giovanni N.
(2012). Pt-TiO 2 /MWNTs Hybrid Composites for Monitoring Low Hydrogen
Concentrations in Air, Sensors, 12(9), 12361-12373.
Valentin N. P.(2004). Carbon nanotubes: properties and application. Materials
Science and Engineering. R, 43, 61–102.
Yang Z, Du G., Meng Q., Guo Z., Yu X., Chen Z., Guo T. & Zeng R.(2012).
Synthesis of uniform TiO2@carbon composite nanofibers as anode for lithium ion
batteries with enhanced electrochemical performance. Journal of Materials
Chemistry. 22(12), 5848–54.
Yi-Jun X., Yangbin Z. &Xianzhi F.(2010). New insight for enhanced photocatalytic
activity of TiO2 by doping carbon nanotubes: A case study on degradation of
Benzene and Methyl Orange'', The Journal of Physical Chemistry. C , 114,
2669–2676.
Zhenhai W., Suqin C., Shun M., Shumao C., Ganhua L., Kehan Y., Shenglian L.&
Zhen H., Junhong C.(2013).TiO2 nanoparticles-decorated carbon nanotubes for
significantly improved bioelectricity generation in microbial fuel cells", Journal of
Power Sources. 234, 100-106.
(2012). Pt-TiO 2 /MWNTs Hybrid Composites for Monitoring Low Hydrogen
Concentrations in Air, Sensors, 12(9), 12361-12373.
Valentin N. P.(2004). Carbon nanotubes: properties and application. Materials
Science and Engineering. R, 43, 61–102.
Yang Z, Du G., Meng Q., Guo Z., Yu X., Chen Z., Guo T. & Zeng R.(2012).
Synthesis of uniform TiO2@carbon composite nanofibers as anode for lithium ion
batteries with enhanced electrochemical performance. Journal of Materials
Chemistry. 22(12), 5848–54.
Yi-Jun X., Yangbin Z. &Xianzhi F.(2010). New insight for enhanced photocatalytic
activity of TiO2 by doping carbon nanotubes: A case study on degradation of
Benzene and Methyl Orange'', The Journal of Physical Chemistry. C , 114,
2669–2676.
Zhenhai W., Suqin C., Shun M., Shumao C., Ganhua L., Kehan Y., Shenglian L.&
Zhen H., Junhong C.(2013).TiO2 nanoparticles-decorated carbon nanotubes for
significantly improved bioelectricity generation in microbial fuel cells", Journal of
Power Sources. 234, 100-106.
)