Carbon nanotubes-based chemiresistive immunosensor for small molecules: Detection of nitroaromatic explosives

Biosensors and Bioelectronics

Volumn 26, Issue 4, 2010, Pages 1297-1301

  Park, Miso ^a   Cella, Lakshmi N ^b   Chen, Wilfred ^a   Myung, Nosang V ^a   Mulchandani, Ashok ^a  

^a University of California Riverside   (United States)

^b UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

Carbon nanotubes; Chemiresistor; Explosives; Field effect transistor; Immunosensor; Label free

Indexed keywords

CHARGED MOLECULE; CHEMIRESISTORS; CONDUCTION CHANNEL; ENVIRONMENTAL MONITORING; ENVIRONMENTAL WATER MATRICES; HIGH-SENSITIVITY DETECTION; LABEL-FREE; LIMIT OF DETECTION; NITROAROMATIC EXPLOSIVES; ONE-DIMENSIONAL NANOSTRUCTURE; SELECTIVE DETECTION; SINGLE-CHAIN ANTIBODIES; SMALL MOLECULES; TRANSDUCER ELEMENTS; UNCHARGED MOLECULES;

ANTIBODIES; AROMATIC COMPOUNDS; BIOSENSORS; EXPLOSIVES; EXPLOSIVES DETECTION; FIELD EFFECT TRANSISTORS; HEALTH CARE; IMMUNOSENSORS; MOLECULES; NANOWIRES; VIRUSES;

SINGLE-WALLED CARBON NANOTUBES (SWCN);

ANTIBODY; SINGLE WALLED NANOTUBE; TRINITROPHENYL; TRINITROTOLUENE;

ARTICLE; CHEMICAL ANALYSIS; CHEMIRESISTIVE IMMUNOSENSOR; CONDUCTANCE; ENVIRONMENTAL MONITORING; IMMUNOSENSOR; SIGNAL DETECTION; WATER ANALYSIS;

BIOSENSING TECHNIQUES; EQUIPMENT DESIGN; EXPLOSIVE AGENTS; NANOTECHNOLOGY; NANOTUBES, CARBON; SENSITIVITY AND SPECIFICITY; SINGLE-CHAIN ANTIBODIES; TRINITROTOLUENE;

EID: 78649721120     PISSN: 09565663     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.bios.2010.07.017     Document Type: Article

References (22)

1. Allen B.L., Kichambare P.D., Star A. Adv. Mater. 2007, 19:1439-1451.
2. Azamian B.R., Davis J.J., Coleman K.S., Bagshaw C.B., Green M.L.H. J. Am. Chem. Soc. 2002, 124:12664-12665.
3. Bangar M.A., Shirale D.J., Chen W., Myung N.V., Mulchandani A. Anal. Chem. 2009, 81:2168-2175.
4. Elkind J.L., Stimpson D.I., Strong A.A., Bartholomew D.U., Melendez J.L. Sens. Actuators B 1999, 54:182-190.
5. Goldman E.R., Hayhurst A., Lingerfelt B.M., Iverson B.L., Georgiou G., Anderson G.P. J. Environ. Monit. 2003, 5:380-383.
6. Green T.M., Charles P.T., Anderson G.P. Anal. Biochem. 2002, 310:36-41.
7. Hangarter C.M., Bangar M.A., Mulchandani A., Myung N.V. J. Mater. Chem. 2010, 20:3131-3140.
8. Halasz A., Groom C., Zhou E., Paquet L., Beaulieu C., Deschamps S., Corriveau A., Thiboutot S., Ampleman G., Dubois C., Hawari J. J. Chromatogr. A 2002, 963:411-418.
9. Li C., Curreli M., Lin H., Lei B., Ishikawa F.N., Datar R., Cote R.J., Thompson M.E., Zhou C. J. Am. Chem. Soc. 2005, 127:12484-12485.
10. Lim J.H., Phiboolsirchit N., Mubeen S., Rheem Y., Deshusses M.A., Mulchandani A., Myung N.V. Electroanalysis 2010, 22:99-105.
11. Kim S.N., Rusling J.F., Papadimitrakopoulos F. Adv. Mater. 2007, 19:3214-3228.
12. Larsson A., Angbrant J., Ekeroth J., Mansson P., Liedberg B. Sens. Actuators B 2006, 113:730-748.
13. Patolsky F., Zheng G., Lieber C.M. Nanomedicine 2006, 1:51-65.
14. Pennington J.C., Brannon J.M. Thermochim. Acta 2002, 384:163-172.
15. Roberts W.C., Commons B.J., Bausum H.T., Abermathy C.O., Murphy J.J., Khanna K. Agency 1993, U.S.E.P.
16. Shankaran D.R., Gobi K.V., Sakai T., Matsumoto K., Toko K., Miura N. Biosens. Bioelectron. 2005, 20:1750-1756.
17. Shriver-Lake L.C., Breslin K.A., Charles P.T., Conrad D.W., Golden J.P., Ligler F.S. Anal. Chem. 2002, 67:2431-2435.
18. Shriver-Lake L.C., Donner B.L., Ligler F.S. Environ. Sci. Technol. 1997, 31:837-841.
19. Teker K., Sirdeshmukh R., Sivakumar K., Lu S., Wickstrom E., Wang H.-N., Vo-Dinh T., Panchapakesan B. NanoBioTechnology 2005, 1:171-182.
20. Walsh M.E. Talanta 2001, 54:427-438.
21. Wanekaya A.K., Chen W., Myung N.V., Mulchandani A. Electroanalysis 2006, 18:533-550.
22. Yinon J., Zitrin S. Modern Methods and Applications in Analysis of Explosives 1993, Wiley, New York.