Browse > Article
http://dx.doi.org/10.9713/kcer.2017.55.1.115

Electrical Property of Immobilized SWNTs Bundle as Bridge between Electrodes in Nanobiosensor Depending on Solvent Characteristics  

Lee, Jinyoung (Department of Plant and Food Sciences, Sangmyung University)
Cho, Jaehoon (Green Process and Materials R&D Group, Korea Institute of Industrial Technology (KITECH))
Park, Chulhwan (Department of Chemical Engineering, Kwangwoon University)
Publication Information
Korean Chemical Engineering Research / v.55, no.1, 2017 , pp. 115-120 More about this Journal
Abstract
In recent, it is worldwide issued that nanoscale science and technology as a solution have supported to increase the sensing performance in carbon nanotube based biosensor system. Containing material chemistry in various nanostructures has formed their high potentials for stabilizing and activating biocatalyst as a bioreceptor for medical, food contaminants, and environmental detections using electrode modification technologies. Especially, the large surface area provides the attachment of biocatalysts increasing the biocatalyst loading. Therefore, nano-scale engineering of the biocatalysts have been suggested to be the next stage advancement of biosensors. Here, we would like to study the electrical mechanism depending on the exposure methods (soaking or dropping) to the sample solution to the assembled carbon nanotubes (CNTs) on the gold electrodes of biosensor for a simple and highly sensitive detection. We performed various experiments using polar and non-polar solutions as sampling tests and identified electrical response of assembled CNTs in those solutions.
Keywords
Carbon Nanotube; Nanobiosensor; Polar; Electron Transfer;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Iijima, S., "Helical Microtubules of Graphitic Carbon," Nature, 354, 56-58(1991).   DOI
2 Swamy, B. E. K. and Venton, B. J., "Carbon Nanotube-Modified Microelectrodes for Simultaneous Detection of Dopamine and Serotonin in Vivo," Analyst, 132, 876-884(2007).   DOI
3 Lin, Y., Zhu, N., Yu, P., Su, L. and Mao, L., "Physiologically Relevant Online Electrochemical Method for Continuous and Simultaneous Monitoring of Striatum Glucose and Lactate Following Global Cerebral Ischemia/Reperfusion," Anal. Chem., 81, 2067-2074(2009).   DOI
4 Chung, Y. and Kwon, Y., "A Study on Performance Improvement of Glucose Sensor Adopting a Catalyst Using New Cross Liker," Korean Chem. Eng. Res., 53(6), 802-807(2015).   DOI
5 Bardhan, N. M., Ghosh, D. and Belcher, A. M., "Carbon Nanotubes as in Vivo Bacterial Probes," Nat. Commun., 5, 4918(2014).   DOI
6 Lee, J., Shin, H. Y., Kang, S. W., Park, C. and Kim, S. W., "Improvement of Electrical Properties via Glucose Oxidase-Immobilization by Actively Turning over Glucose for an Enzyme-Based Biofuel Cell Modified with DNA-Wrapped Single Walled Nanotubes," Biosens. Bioelectron., 26, 2685-2688(2011).   DOI
7 Monica, A. H., Papadakis, S. J. R., Osiander and Paranjape, M., "Wafer-Level Assembly of Carbon Nanotube Networks Using Dielectrophoresis," Nanotechnology, 19(8), 085303(2008).   DOI
8 Kim, S., Park, S., Kwon, J. and Ha, K., "Preparation of Electrically Conductive Composites Filled with Nickel Powder and MWCNT Fillers," Korean Chem. Eng. Res., 54(3), 410-418(2016).   DOI
9 Gultepe, E., Nagesha, D., Casse, B. D. F., Selvarasah, S., Busnaina, A. and Sridhar, S., "Large Scale 3D Vertical Assembly of Single-Wall Carbon Nanotubes at Ambient Temperatures," Nanotechnology, 19(45), 455309(2008).   DOI
10 Mureau, N., Mendoza, E., Silva, S. R. P., Hoettges, K. F. and Hughes, M. P., "In Situ and Real Time Determination of Metallic and Semiconducting Single-Walled Carbon Nanotubes in Suspension via Dielectrophoresis," Appl. Phys. Lett., 88, 243109(2006).   DOI
11 Stokes, P. and Khondaker, S. I., "Local-Gated Single-Walled Carbon Nanotube Field Effect Transistors Assembled by AC Dielectrophoresis," Nanotechnology, 19(17), 175202(2008).   DOI
12 Xiao, Z. and Camino, F. E., "The Fabrication of Carbon Nanotube Field-Effect Transistors with Semiconductors as the Source and Drain Contact Materials," Nanotechnology, 20(13), 135205(2009).   DOI
13 Li, S. H., Li, H., Wang, X., Song, Y., Liu, Y., Jiang, L. and Zhu, D., "Super-hydrophobicity of Large-area Honeycomb-like Aligned Carbon Nanotubes," J. Phys. Chem. B, 106, 9274-9276(2002).   DOI
14 Yuen, F. L.-Y., Zak, G., Waldman, S. D. and Docoslis, A., "Morphology of Fibroblasts Grown on Substrates Formed by Dielectrophoretically Aligned Carbon Nanotubes," Cytotechnology, 56, 9-17(2008).   DOI
15 Zhou, R., Wang, P. and Chang, H.-C., "Bacteria Capture, Concentration and Detection by Alternating Current Dielectrophoresis and Self-Assembly of Dispersed Single-Wall Carbon Nanotubes," Electrophoresis, 27, 1376-1385(2006).   DOI
16 Lim, J.-H., Phiboolsirichit, N., Mubeen, S., Deshusses, M. A., Mulchandani, A. and Myung, N. V., "Electrical and Gas Sensing Properties of Polyaniline Functionalized Single-Walled Carbon Nanotubes," Nanotechnology, 21, 1-7(2010).
17 Bartolomeo, A. D., Rinzan, M., Boyd, A. K., Yang, Y., Guadagno, L., Giubileo, F. and Barbara, P., "Electrical Properties and Memory Effects of Field-Effect Transistors from Networks of Singleand Double-Walled Carbon Nanotubes," Nanotechnology, 21(11), 115204(2010).   DOI
18 Wong, S. S., Woolley, A. T., Joselevich, E., Cheung, C. L. and Lieber, C. M., "Covalently-Functionalized Single-Walled Carbon Nanotube Probe Tips for Chemical Force Microscopy," J. Am. Chem. Soc., 120, 8557-8558(1998).   DOI
19 Wang, H. L., Miyauchi, M. and Takata, T., "Initial Attachment of Osteoblasts to Various Guided Bone Regeneration Membranes. An in Vitro study," J. Periodontal. Res., 37, 340-344(2002).   DOI
20 Kalka, C., Masuda, H., Takahashi, T., Wiltrud, M., Kalka, M., Marcy, S., Marianne, K., Tong, L., Jeffrey, M. I. and Takayuki, A., "Transplantation of ex Vivo Expanded Endothelial Progenitor Cells for Therapeutic Neovascularization," Proc. Natl. Acad. Sci. USA., 97, 3422-3427(2000).   DOI
21 Moldenhauer, A., Nociari, M. M., Dias, S., Lalezari. P. and Moore, M. A., "Optimized Culture Conditions for the Generation of Dendritic Cells from Peripheral Blood Monocytes," Vox Sang, 84, 228-236(2003).   DOI
22 Pollreisz, A., Assinger, A., Hacker, S., Hoetzenecker, K., Schmid, W., Lang, G., Wolfsberger, M., Steinlechner, B., Bielek, E., Lalla, E., Klepetko, W., Volf, I. and Ankersmit, H. J., "Intravenous Immunoglobulins Induce CD32-Mediated Platelet Aggregation in Vitro," Br J. Dermatol. 159, 578-584(2008).   DOI
23 Jing, R., Wang, H., Jiang, S. and Zhang, Z., "Up-Regulation of the Receptor for Advanced Glycation End Product (RAGE) in Esophageal Cancer and Down-Regulation in Lung Cancer and their Relationship to Clinicopathological Features," Lab. Med., 39, 661-667(2008).   DOI