Plasmonic nanobiosensor with chain reaction amplification mechanism

Chemistry - A European Journal

Volumn 20, Issue 5, 2014, Pages 1226-1230

  Recco, Lucas C ^a   Tokarev, Ihor ^a   Minko, Sergiy ^b   Pedrosa, Valber A ^a  

^a SÃO PAULO STATE UNIVERSITY UNESP   (Brazil)

^b CLARKSON UNIVERSITY   (United States)

Author keywords

Biopolymerization; Biosensors; Nanotechnology; Plasmonic platforms; Polymerization

Indexed keywords

AMPLIFICATION MECHANISM; BIOCATALYTIC REACTION; BIOPOLYMERIZATION; CHEMICAL SIGNALS; GOLD NANOPARTICLES; MAXIMUM ABSORBANCE; PLASMON COUPLING; PLASMONIC PLATFORMS;

AMPLIFICATION; BIOSENSORS; CHAINS; GOLD; METAL NANOPARTICLES; NANOTECHNOLOGY; POLYMERIZATION;

PLASMONS;

CHLORIDE; FERRIC CHLORIDE; FERRIC ION; GLUCOSE; GLUCOSE OXIDASE; GOLD; METAL NANOPARTICLE; METHACRYLIC ACID; METHACRYLIC ACID DERIVATIVE; POLYMER;

ARTICLE; BIOCATALYSIS; BIOPOLYMERIZATION; BIOSENSOR; CHEMISTRY; GENETIC PROCEDURES; METABOLISM; NANOTECHNOLOGY; PLASMONIC PLATFORMS; POLYMERIZATION; SURFACE PLASMON RESONANCE;

BIOPOLYMERIZATION; BIOSENSORS; NANOTECHNOLOGY; PLASMONIC PLATFORMS; POLYMERIZATION;

BIOCATALYSIS; BIOSENSING TECHNIQUES; CHLORIDES; FERRIC COMPOUNDS; GLUCOSE; GLUCOSE OXIDASE; GOLD; METAL NANOPARTICLES; METHACRYLATES; NANOTECHNOLOGY; POLYMERS; SURFACE PLASMON RESONANCE;

EID: 84896772503     PISSN: 09476539     EISSN: 15213765     Source Type: Journal    
DOI: 10.1002/chem.201304148     Document Type: Article

References (21)

1. I. Tokarev, S. Minko, Soft Matter 2009, 5, 511-524.
2. I. Tokarev, M. Motornov, S. Minko, J. Mater. Chem. 2009, 19, 6932-6948.
3. M. A. C. Stuart, W. T. S. Huck, J. Genzer, M. Mller, C. Ober, M. Stamm, G. B. Sukhorukov, I. Szleifer, V. V. Tsukruk, M. Urban, F. Winnik, S. Zauscher, I. Luzinov, S. Minko, Nat. Mater. 2010, 9, 101-113.
4. R. Israels, D. Gersappe, M. Fasolka, V. A. Roberts, A. C. Balazs, Macromolecules 1994, 27, 6679-6682.
5. G. Mçller, M. Harke, H. Motschmann, D. Prescher, Langmuir 1998, 14, 4955-4957.
6. S. K. Ahn, R. M. Kasi, S. C. Kim, N. Sharma, Y. Zhou, Soft Matter 2008, 4, 1151-1157.
7. A. Laiho, R. H. A. Ras, S. Valkama, J. Ruokolainen, R. sterbacka, O. Ikkala, Macromolecules 2006, 39, 7648-7653.
8. C. R. Basso, B. L. Santos, V. A. Pedrosa, Electroanalysis19. 2013, 25, 1818-1822.
9. I. S. Lokuge, P. W. Bohn, Langmuir 2005, 21, 1979-1985.
10. D. J. Chung, Y. Ito, Y. Imanishi, J. Appl. Polym. Sci. 1994, 51, 2027-2033.
11. I. Tokareva, S. Minko, J. H. Fendler, E. Hutter, J. Am. Chem. Soc. 2004, 126, 15950-15951.
12. I. Tokarev, I. Tokareva, S. Minko, Adv. Mater. 2008, 20, 2730-2734.
13. T. R. T. A. Antonio, M. F. Cabral, I. Cesarino, S. A. S. Machado, V. A. Pedrosa, Electrochem. Commun. 2013, 29, 41-44.
14. S. Lee, V. H. Perez-Luna, Langmuir 2007, 23, 5097-5099.
15. S. Gupta, M. Agrawal, P. Uhlmann, F. Simon, U. Oertel, M. Stamm, Macromolecules 2008, 41, 8152-8158.
16. S. Gupta, M. Agrawal, P. Uhlmann, F. Simon, M. Stamm, Chem. Mater. 2010, 22, 504-509.
17. H. D. Sikes, R. R. Hansen, L. M. Johnson, R. Jenison, J. W. Birks, K. L. Rowlen, C. N. Bowman, Nat. Mater. 2008, 7, 52-56.
18. B. J. Berron, L. M. Johnson, X. Ba, J. D. McCall, N. J. Alvey, K. S. Anseth, C. N. Bowman, Biotechnol. Bioeng. 2011, 108, 1521-1528.
19. B. J. Berron, A. M. May, Z. Zheng, V. Balasubramaniam, C. N. Bowman, Lab Chip 2012, 12, 708-710.
20. L. M. Johnson, B. D. Fairbanks, K. S. Anseth, C. N. Bowman, Biomacromolecules 2009, 10, 3114-3121.
21. F. Bei, X. Hou, S. L. Y. Chang, G. P. Simon, D. Li, Chem. Eur. J. 2011, 17, 5958-5964.