Highly sensitive capacitive immunosensor based on porous silicon-polyaniline structure: Bias dependence on specificity

Biosensors and Bioelectronics

Volumn 25, Issue 2, 2009, Pages 338-343

  Betty, C A ^a  

^a BHABHA ATOMIC RESEARCH CENTRE   (India)

Author keywords

Capacitive immunosensor; Nanochannels; Porous silicon; Porous silicon polyaniline structure

Indexed keywords

ANALYTES; ANTIBODY BINDING; BIAS DEPENDENCE; CAPACITIVE IMMUNOSENSOR; CAPACITIVE IMMUNOSENSORS; CONCENTRATION RANGES; COVALENT BINDING; GLUTERALDEHYDES; HETEROSTRUCTURES; HIGH SENSITIVITY; HIGHLY SENSITIVE; LABEL FREE; NANOCHANNELS; NATURALLY OCCURRING; NH GROUPS; OPTIMUM SENSITIVITY; PROCESSABILITY; REAL-TIME ELECTRICAL DETECTIONS; SENSOR STRUCTURES; SILICON CHANNEL; SPACE CHARGE LAYERS; SUBSTRATE BIAS;

BIOMOLECULES; CHARGED PARTICLES; IMMUNOSENSORS; POLYANILINE; SURFACE CHARGE;

POROUS SILICON;

AMMONIA; GLUTARALDEHYDE; IMMUNOGLOBULIN G; IMMUNOGLOBULIN G ANTIBODY; POLYANILINE; SILICON;

ANALYTICAL ERROR; ANTIGEN BINDING; ARTICLE; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; COVALENT BOND; ELECTROCHEMICAL DETECTION; IMMOBILIZATION; IMMUNOSENSOR; MOUSE; NONHUMAN; POROSITY; SENSITIVITY AND SPECIFICITY; SURFACE CHARGE;

ANILINE COMPOUNDS; BIOSENSING TECHNIQUES; ELECTRIC CAPACITANCE; ELECTROCHEMISTRY; ELECTRODES; IMMUNOASSAY; POROSITY; SENSITIVITY AND SPECIFICITY; SILICON; TRANSDUCERS;

EID: 69949114870     PISSN: 09565663     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.bios.2009.07.009     Document Type: Article

References (51)

1. Bergveld P. IEEE Trans. Biomed. Eng. 17 (1970) 70
2. Bergveld P. IEEE Trans. Biomed. Eng. BME-19 (1972) 342
3. Bergveld P. Biosens. Bioelectron. 6 (1991) 55-72
4. Betty C.A., Lal R., Sharma D.K., Yakhmi J.V., and Mittal J.P. Sens. Actuators B 97 (2004) 334-343
5. Betty C.A., Lal R., Yakhmi J.V., and Kulshreshtha S.K. Biosens. Bioelectron. 22 (2007) 1027-1033
6. Betty C.A. J. Recent Patents Nanotechnol. 2 2 (2008) 128-136
7. Betty C.A., Lal R., and Yakhmi J.V. Electrochim. Acta 54 (2009) 3781-3787
8. Blackburn, G.F., 1987. In: A.P.F. Turner, I. Karube, G.S. Wilson (Eds.), Biosensors: Fundamentals and Applications, Oxford University Press, Oxford, pp. 481-530.
9. Chan S., Sunghoon K., Tae-Woong K., Luke P., and Berlin L.A. Adv Mater. 15 19 (2003) 1595-1598
10. Chan S., Horner S.R., Philippe M.F., and Miller B.L. Phys. Status Solidi A 182 (2000) 541-546
11. Chen J., Miao Y., He N., Wu X., and Li S. Biotechnol. Adv. 22 (2004) 505-518
12. Collins P.G., Arnold M.S., and Avouris P. Science 292 (2001) 706
13. Cui Y., Duan X., Hu J., and Lieber C.M. J. Phys. Chem. B 104 (2000) 5213
14. Cui Y., and Lieber C.M. Science 291 (2001) 851
15. Cui Y., Qingqiao Wei, Hongkun Park, and Lieber C.M. Science 293 (2001) 1289
16. deLeon Ben Tabou S., Sa'ar A., Oren R., Spira M.E., and Yitzchaik S. Appl. Phys. Lett. 84 (2004) 4361
17. de Leon Ben Tabou S., Oren R., Spira M.E., Korbakov N., Yitzchaik S., and Sa'ar A. Phys. Status Solidi A 202 (2005) 1456
18. Ding C., Hua Z., and Shusheng Z. Biosens. Bioelectron. 23 (2008) 1314-1318
19. Farzana D., Sang-Un P., and Yoon-Bo S. Biosens. Bioelectron. 18 (2003) 773
20. Finny P., and Mathew E.C.A. Biosens. Bioelectron. 20 (2005) 1656-1661
21. Gebbert A., Alvarez-Icaza M., Stocklein W., and Schmid R.D. Anal. Chem. 64 (1992) 997
22. Guo-Jun Zhang, Jay Huiyi Chua, Ru-Ern Chee, Ajay Agarwal, She Mein Wong, Buddharaju Kavitha D., and Balasubramanian N. Biosens. Bioelectron. 23 (2008) 1701-1707
23. Hafeman D.G., Parce J.W., and McConnell H.M. Science 240 (1988) 1182
24. Ja-an Annie Ho, Je-Kuan Chiu, Jia-Cherng Hong, Chun-Cheng Lin, Kuo-Chu Hwang, and Jih-Ru Reuben Hwu. J. Nanosci. Nanotechnol. 9 4 (2009) 2324-2329
25. Janata J., and Blackburn G.F. Ann. N. Y. Acad. Sci. 428 (1984) 286-292
26. Janata J., and Josowicz M. Nat. Mater. 2 (2003) 19
27. Jayachandran M., Paramasivam M., Murali K.R., Trivedi D.C., and Raghavan M. Mater. Phys. Mech. 4 (2001) 143-147
28. Joon-Hyung J., Zhang D., Alocilja E.C., and Grooms D.L. IEEE Sens. 8 6 (2008) 891
29. Kavita A., Prabhakar N., Chand S., and Malhotra B.D. Biosens. Bioelectron. 23 (2007) 613
30. Kumar D., and Sharma R.C. Eur. Polym. J. 34 (1998) 1053
31. Laurell T. Sens. Update 10 1 (2002) 3-32
32. Lin V.S.-Y., Kianoush Motesharie, Dancil Keiki-Pua S., Sailor M.J., and Ghadiri Reza M. Science 278 (1997) 840
33. Louis X. Tiefenauer, Sebastian Kossek, Celestino Padeste, Pierre Thiebaud, 1997. Biosens. Bioelectron. 12, 213.
34. Mandakini K., Kumar A., and Contractor A.Q. Anal. Chem. 75 (2003) 5673-5679
35. Misra S.C.K., Bhattacharya R., and Angelucci R. J. Indian Inst. Sci. 81 (2001) 563
36. Mott N.F., and Davis E.A. Electronic Processes in Non-Crystalline Materials (1979), Cladon Press, Oxford p. 223
37. Muramatsu H., Dicks J.M., Tamiya E., and Karube I. Anal. Chem. 59 (1987) 2760-2763
38. Nicholas J.P., Acosta A.A., Sinha G.P., and Aliev F.M. Synthetic Metals 113 (2000) 77-81
39. Nicollian E.H., and Brews J.R. MOS (Metal Oxide Semiconductor) Physics and Technology (1982), Wiley, New York
40. Patolsky F., Timko B.P., Yu G., Fang Y., Greytak A.B., Zheng G., and Lieber C.M. Science 313 (2006) 1100-1104
41. Peter L.M., Riley D.J., and Weilgosz R.I. Thin Solid Films 276 (1996) 61
42. Pethig R., and Kell D.B. Phys. Med. Biol. 32 (1987) 933-970
43. Prasad B., and Lal R. Meas. Sci. Technol. 10 (1999) 1097
44. Schoning M.J., Ronkel F., Crott M., Thust M., Schultze J.W., Kordos P., and Luth H. Electrochim. Acta 42 (1997) 3185
45. Seker F., Meeker K., Kuech T.F., and Ellis A.B. Chem. Rev. 100 (2000) 2505
46. Tans S.J., Verschueren A.R.M., and Dekker C. Nature 393 (1999) 49
47. Turner A.P.F. In: Andrews A.T. (Ed). Chemical Aspects of Food Enzymes (1987)
48. Urbach B., Korbakov N., Bar-David Y., Yitzchaik S., and Sa'ar A. J. Phys. Chem. C 111 (2007) 16586
49. Vicki Chin, Boyce E. Collins, Sailor, M.J., Sangeeta N. Bhatia, 2001. Adv. Mater. 13 (24), 1877.
50. Wanekaya A.K., Wilfred Chen, Myung N.V., and Mulchandani A. Electroanalysis 18 6 (2006) 533-550
51. Wei-Ching Liao, and Ja-an Annie Ho. Anal. Chem. 81 (2009) 2470-2476