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Microsystem Technologies

Erschienen in:

01.04.2015 | Technical Paper

Design, modeling and performance analysis of carbon nanotube with DNA strands as biosensor for prostate cancer

verfasst von: B. N. Shobha, N. J. R. Muniraj

Erschienen in: Microsystem Technologies | Ausgabe 4/2015

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Abstract

Prostate cancer which causes panic among human beings due to deaths occurring when not detected in initial stages demands a means of detection and diagnosis. Biosensors play an important role in detection of cancer cells or molecules in blood samples or urine samples using DNA strands. In this paper, we analyze properties of Single Wall Carbon Nano Tube (SWCNT) and Multi Wall Carbon Nano Tube (MWCNT) of 30 nm length and semiconducting nature. SWCNT is suitable for biosensor applications due to its high current carrying capability. Prostate Specific Antigen present in blood sample is detected using DNA strands, in this work three different DNA strands are analyzed for its performance. Surface charge density is 23.4656 M for dsDNA strand. The simulation tool Monte Carlo from Nanohub.org is used for validation of results.

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Besteman K, Lee J, Wiertz FG, Heering HA, Dekker C (2003) Enzyme-coated carbon nanotubes as single-molecule biosensors. Nano Lett 3(6):727–730CrossRef

Bulyha A, Heitzinger C (2009) Monte Carlo DNA Simulator. University of Vienna and Purdue University. https://nanohub.org/resources/mcdna. doi:10.4231/D3BZ6176M

Cai H, Xu Y, He P, Fang YZ (2003) Indicator free DNA hybridization detection by impedance measurement based on the DNA-doped conducting polymer film formed on the carbon nanotube modified electrode. Electroanalysis 15(23–24):1864–1870

Cheng Y, Xiong P, Yun CS, Strouse GF, Zheng JP, Yang RS, Wang ZL (2008) Mechanism and optimization of pH sensing using SnO₂ nanobelt field effect transistors. Nano Lett 8:4179–4184

Davis JJ, Coleman KS, Azamian BR, Bagshaw CB, Green MLH (2003) Chemical and biochemical sensing with modified single walled carbon nanotubes. Chemistry 9(16):3732–3739CrossRef

Gooding JJJ (2002) Electrochemical DNA hybridization biosensors. Electroanalysis 14(17):1149–1156CrossRef

Hallick RB (2013) DNA Structure. http://www.blc.arizona.edu/molecular_graphics/dna_structure/dna_tutorial.html. Accessed 21 Apr 2013

Hsiao C-Y, Lin C-H, Hung C-H, Su C-J, Lo Y-R, Lee C-C, Lin H-C, Ko F-H, Huang T-Y, Yang Y-S (2009) Biosens Bioelectron 24:1223

http://www.indiastat.com/health/16/diseases/77/cancer/17811/stats.aspx. Accessed 21 Apr 2013

Koehne J, Chen H, Li J, Cassell AM, Cassell AM, Ye Q, Ng HT, Han J, Meyyappan M (2003) Ultrasensitive label-free DNA analysis using an electronic chip based on carbon nanotube nanoelectrode arrays. Nanotechnology 14:1239CrossRef

Lilja H, Ulmert D, Vickers AJ (2008) Prostate-specific antigen and prostate cancer: prediction, detection and monitoring. Nat Rev Cancer 8:268–278CrossRef

Lin Y, Lu F, Tu Y, Ren Z (2004) Glucose biosensors based on carbon nanotube nanoelectrode ensembles. Nano Lett 4(2):191–195CrossRef

Lin C-H, Hsiao C-Y, Hung C-H, Lo Y-R, Lee C-C, Su C-J, Lin H-C, Ko F-H, Huang T-Y, Yang Y-S (2008) Ultrasensitive detection of dopamine using a polysilicon nanowire field-effect transistor. Chem Commun (Camb) (44):5749–5751. doi:10.1039/b812968a

Moore KL, Dalley AF, Agur AMR, Tank PW, Gest TR (1999) Clinically oriented anatomy. Lippincott Williams Wilkins, Baltimore

Patolsky F, Zheng G, Lieber GM (2006) Fabrication of silicon nanowire devices for ultrasensitive, label-free, real-time detection of biological and chemical species. Nat Protoc 1(4):1711–1724

Pingang H, Ying X, Yuzhi F (2006a) Application of carbon nanotubes in electrochemical DNA biosensor. Microchim Acta 152:175–186CrossRef

Rubianes MD, Rivas GA (2005) Enzymatic biosensors based on carbon nanotubes paste electrodes. Electroanalysis 17(1):73–78CrossRef

Shen G, Chen D (2009) One-dimensional nanostructures and devices of II–V group semiconductors. Nanoscale Res Lett 4(8):779–788CrossRef

Stenman UH, Leinonen J, Zhang W-H, Finne P (1999) Fabrication of silicon nanowire devices for ultrasensitive, label-free, real-time detection of biological and chemical species. Semin Cancer Biol 9:83–93

Tang X, Bansaruntip S, Nakayama N, Yenilmez E, Chang Y-L, Wang Q (2006) Carbon nanotube DNA sensor and sensing mechanism. Nano Lett 6(8):1632–1636

Wang J (2005) Carbon-nanotube based electrochemical biosensors: a review. Electroanalysis 17(1):7–14CrossRef

Wang J, Musameh M (2003) Enzyme-dispersed carbon-nanotube electrodes: a needle microsensor for monitoring glucose. Analyst 128(11):1382–1385CrossRef

Wang J, Kawdea A, Musameha M (2003) Carbon-nanotube-modified glassy carbon electrodes for amplified label-free electrochemical detection of DNA hybridization. Analyst 128(7):912–916CrossRef

Wang J, Liu G, Jan MR (2004) Ultrasensitive electrical biosensing of proteins and DNA: carbon-nanotube derived amplification of the recognition and transduction events. J Am Chem Soc 126(10):3010–3011

Wu C-C, Pan T-M, Wu C-S, Yen L-C, Chuang C-K, Pang S-T, Yang Y-S, Ko F-H (2012) Label-free detection of prostate specific antigen using a silicon nanobelt field-effect transistor. Int J Electrochem Sci 7:4432–4442

Zhang M, Cheng F, Cai Z, Yao Z (2010) Glucose biosensor based on highly dispersed Au nanoparticles supported on palladium nanowire array. Int J Electrochem Sci 5:1026–1031

Titel: Design, modeling and performance analysis of carbon nanotube with DNA strands as biosensor for prostate cancer
verfasst von: B. N. Shobha
N. J. R. Muniraj
Publikationsdatum: 01.04.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: Microsystem Technologies / Ausgabe 4/2015
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-014-2281-x

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