Nanotubes hybrid

Johnson RR, Johnson ATC, Klein ML (2008) Probing the Structure of DNA-Carbon Nanotube Hybrids with Molecular Dynamics. Nano Lett. 8 69-75. [Pg.46]

Zhang Q, Zhang L, Li JH (2007) DNA-hemoglobin-multiwalls carbon nanotube hybrid material with sandwich structure Preparation, characterization, and application in bioelectrochemistry. J. Phys. Chem. C 111 8655-8660. [Pg.50]

Li H, Wang DQ, Liu BL, Gao LZ (2004) Synthesis of a novel gelatin-carbon nanotubes hybrid hydrogel. Colloids and Surfaces B-Biointerfaces 33 85-88. [Pg.262]

Yim TJ, Liu JW, Lu Y, Kane RS, Dordick JS (2005) Highly active and stable DNAzyme - Carbon nanotube hybrids. Journal of the American Chemical Society 127 12200-12201. [Pg.266]

Ismaili, H., F.o. Lagugnei-Labarthet, and M.S. Workentin, Covalently assembled gold nanoparticle-carbon nanotube hybrids via a photoinitiated carbene addition reaction. Chemistry of Materials, 2011. 23(6) p. 1519-1525. [Pg.158]

Vinayan, B.P., et al., Synthesis of graphene-multiwalledcarbon nanotubes hybrid nanostructure by strengthened electrostatic interaction and its lithium ion battery application. Journal of Materials Chemistry, 2012. 22(19) p. 9949-9956. [Pg.160]

Chen, S., et al., Chemical-free synthesis of graphene-carbon nanotube hybrid materials for reversible lithium storage in lithium-ion batteries. Carbon, 2012. 50(12) p. 4557-4565. [Pg.160]

Mani, V., B. Devadas, and S.-M. Chen, Direct electrochemistry of glucose oxidase at electrochemically reduced graphene oxide-multiwalled carbon nanotubes hybrid material modified electrode for glucose biosensor. Biosensors and Bioelectronics, 2012. 41 p. 309-315. [Pg.160]

Lu, L., et al., Highly stable air working bimorph actuator based on a graphene nanosheet/carbon nanotube hybrid electrode. Advanced Materials, 2012. 24(31) p. 4317-4321. [Pg.160]

Yu, D. and L. Dai, Self-assembled graphene/carbon nanotube hybrid films for supercapacitors. The Journal of Physical Chemistry Letters, 2009.1(2) p. 467-470. [Pg.161]

Zhang, FI. and FI. Cui, Synthesis and characterization of functionalized ionic liquid-stabilized metal (gold and platinum) nanoparticles and metal nanoparticle/carbon nanotube hybrids. Langmuir, 2009. 25(5) p. 2604-2612. [Pg.161]

Zhou, X., et al., Facile synthesis of nanospindle-like Cu20/straight multi-walled carbon nanotube hybrid nanostructures and their application in enzyme-free glucose sensing. Sensors and Actuators B Chemical, 2012.168 p. 1-7. [Pg.167]

Peng, Y. and Q. Chen, Fabrication of copper/multi-walled carbon nanotube hybrid nanowires using electroless copper deposition activated with silver nitrate. Journal of The Electrochemical Society, 2012.159(2) p. D72-D76. [Pg.167]

Yu, A., et al., Silver nanoparticle-carbon nanotube hybrid films Preparation and electrochemical sensing. Electrochimica Acta, 2012. 74(0) p. 111-116. [Pg.167]

Sahoo, S., et ah, Controlled assembly ofAg nanoparticles and carbon nanotube hybrid structures for biosensing. Journal of the American Chemical Society, 2011.133(11) p. 4005-4009. [Pg.168]

Tong, X., et ah, Enhanced catalytic activity for methanol electro-oxidation of uniformly dispersed nickel oxide nanoparticles - carbon nanotube hybrid materials. Small, 2012. [Pg.170]

Carbon nanotubes have been decorated with metal nanoparticies of Au, Ag, Pt, Pd and Co employing different procedures such as the click reaction [107], microwave treatment [106], electroless plating [108] and laser irradiation of mixtures of the individual components [109]. Pt-carbon nanotube hybrids have been used as catalysts for the conversion of nitrobenzene to aniline [110]. Tessonier et al. report that MWNTs covered with Pd nanoparticies on the interior walls can be employed for... [Pg.185]

Tung VC, Chen L, Allen MJ et al (2009) Low-temperature solution processing of graphene-carbon nanotube hybrid materials for high-performance transparent conductors. Nano Lett 9 1949-1955... [Pg.173]

Electrical Wiring of Redox Proteins by Supramolecular Nanoparticle or Carbon Nanotube Hybrid Systems... [Pg.341]

Cui RJ, Huang HP, Yin ZZ, Gao D, Zhu JJ (2008) Horseradish peroxidase-functionalized gold nanoparticle label for amplified immunoanalysis based on gold nanoparticles/carbon nanotubes hybrids modified biosensor. Biosens Bioelectron 23 1666-1673... [Pg.158]

Xing Lu was born in 1975 in Jilin Province, China. He received his Ph.D. degree from Peking University in 2004 under the supervision of Prof. Zhennan Gu. Then, he went to Nagoya University, Japan for his postdoctoral research on dendrimer/carbon nanotube hybrid materials and in April 2006, he joined the group of Professor Takeshi Akasaka at the University... [Pg.589]

R. Turcu, A. Darabont, A. Nan, N. Aldea, D. Macovei, D. Bica, L. Vekas, O. Pana, M.L. Soran, A.A. Koos, and L.P. Biro, New polypyrrole-multi-wall carbon nanotubes hybrid materials, J. Optoelectron. Adv. Mater., 8, 643-647 (2006). [Pg.258]

Blending is the other technique for the preparation of CS-based UF membranes. In our recent publication, Kumar et al. [70] used CS as an additive for the preparation of PSf/titanium dioxide nanotube hybrid membranes. The addition of CS resulted in increased hydrophilicity of the membrane, acted as pore former, and also resulted in uniform dispersion of titanium dioxide nanotubes in the blend or membrane. Further, Kumar et al. [71] prepared A-propylphosphonic chitosan (NPPCS), a novel derivative of CS that acted as a suitable additive for the enhancement of PSf UF properties. Due to the insolubility of NPPCS in common organic solvents, a new process was demonstrated for the blending of PSf and NPPCS. The same group, Kumar et al. [46], used CS as an additive for the improvement of the permeation and antifouling property of the PSf UF membrane. A maximum of 5% CS was incorporated into the PSf and CS blend. The permeation and antifouling property of the PSf/CS membranes increased with the increase in CS content. [Pg.471]

Xie, Y. B., and X. Q. Fang. 2014. Electrochemical flexible supercapacitor based on manganese dioxide-titanium nitride nanotube hybrid. Electrochimica Acta 120 273-283. [Pg.245]

Shin, S. R., C. K. Lee, I. So et al. 2008. DNA-wrapped single-walled carbon nanotube hybrid fibers for supercapacitors and artificial vaascles.AdvancedMaterials 20 466-470. [Pg.273]

Qiang, W, Zhenhai, W, and Jinghong, L. (2007). Carbon nanotubes/ TiOj nanotubes hybrid supercapacitor. J. Nanosd. Nanotechnol., 7, pp. 3328-3331. [Pg.219]

PEN/carbon nanotubes hybrid films can be prepared by a solution blending method [52]. The dispersion of... [Pg.216]

New material classes, like carbon nanotubes, hybrid (organic - inorganic) material combinations and device architectures like organic CMOS technologies, offer new approaches to optimising the performance of devices. [Pg.6]

Characteristics of coiiagen/guar gum/carbon nanotube hybrid fiims... [Pg.64]

Fischer, C.E., Raith, A., Mink, J., Raudaschl-Sieber, G., Cokoja, M., and Kiihn, F.E. 2011. Organic-inorganic nanotube hybrids Organosilica-nanotubes containing ethane, ethylene and acetylene groups. J. Organometal. Chem. 696 2910-2917. [Pg.963]

Alexeyeva N, Matisen L, Saar A, Laaksonen P, Kontturi K, Tammeveski K (2010) Kinetics of oxygen reduction on gold nanoparticle/multi-walled carbon nanotube hybrid electrodes in acid media. J Electroanal Chem 642(1) 6-12... [Pg.509]

Jiang L et al (2014) Simultaneous leinfoicement and toughening of polyurethane composites with carbon nanotube/halloysite nanotube hybrids. Compos Sci Technol 91 98-103... [Pg.346]

Cui R, Huany H, Yin Z, Gao D, Zhu JJ (2(X)8) Horseradish peroxide-fimctionalized GNPs label for amplified immunoanalysis based on GNPs/carbon nanotubes hybrids modified biosensOT. Biostms Bioelectrrai 23 1666—1673... [Pg.43]

Lee HF, Yu HH. Study of electroactive shape memory polyurethane-carbon nanotube hybrids. Soft Matter February 2011 7 3801-7. [Pg.191]

Lu D, Lin S, Wang L, Li T, Wang C, Zhang Y (2014) Sensitive detection of luteolin based on poly (diallyldimethylammonium chloride)-functionalized graphene-carbon nanotubes hybrid/p-cyclodextrin composite film. J Solid State Electrochem 18(l) 269-278 Ma Y, Wu D, Liu Y, Li X, Qiao H, Yu Z-Z (2014a) Electrically conductive and super-tough polypropylene/carbon nanotube nanocomposites prepared by melt compounding. Compos B Eng 56 384-391... [Pg.204]

Sun Y, He K, Zhang Z, Zhou A, Duan H. Real-time electrochemical detection of hydrogen peroxide secretion in live cells by Pt nanoparticles decorated graphene-carbon nanotube hybrid paper electrode. Biosensors and Bioelectronics 2015 68 358-64. http //dx.doi.Org/10.1016/j.bios.2015.01.017. [Pg.253]

Sarkar, C., C. Bora, and S. K. Dolui. Selective dye adsorption by pH modulation on amine-functionalized reduced graphene oxide — carbon nanotube hybrid. Ind. Eng. Chem. Res. 53, 2014 16148-16155. [Pg.218]

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