Non-aggregation colorimetric sensor for detecting vitamin C based on surface plasmon resonance of gold nanorods

Sensors and Actuators, B: Chemical

Volumn 182, Issue , 2013, Pages 205-210

  Wang, Xin Xing ^a   Liu, Jia Ming ^a   Jiang, Shu Lian ^a,b   Jiao, Li ^a   Lin, Li Ping ^a   Cui, Ma Lin ^a   Zhang, Xiao Yang ^a   Zhang, Li Hong ^c   Zheng, Zhi Yong ^c  

^a MINNAN NORMAL UNIVERSITY   (China)

^b Fujian Provincial Bureau of Quality and Technical Supervision   (China)

^c ZHANGZHOU INSTITUTE OF TECHNOLOGY   (China)

Author keywords

Gold nanorods; Non aggregation colorimetric sensor; Surface plasmon resonance; Vitamin C

Indexed keywords

CETYLTRIMETHYLAMMONIUM BROMIDE; COLORIMETRIC SENSORS; D. TRANSMISSION ELECTRON MICROSCOPES (TEM); GOLD NANOROD; GOLD NANORODS (AUNRS); PLASMON ABSORPTION; SENSING MECHANISM; VITAMIN C;

ASPECT RATIO; COLOR; COLORIMETRY; GOLD; GOLD DEPOSITS; METALS; NANORODS; SENSORS; SURFACE PLASMON RESONANCE; TRANSMISSION ELECTRON MICROSCOPY;

PLASMONS;

EID: 84875692724     PISSN: 09254005     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.snb.2013.02.059     Document Type: Article

References (23)

1. S.G. Yan, and T. Han A review on determination of ascorbic acid in fruits and vegetables Chinese Agricultural Science Bulletin 18 2002 110 112
2. J.M. Yang, C.F. Tan, and R.L. Yu The spectrophoto determination for vitamin C in pears and apples Anhui Medical and Pharmaceutical Journal 9 2005 205 206
3. J.G. Wang, and R.B. Wang Rapid determination of ascorbic acid in vegetable by potassium permanganate titrimetry Food Science 29 2008 471 473
4. S. Yilmaz, M. Sadikoglu, G. Saglikoglu, S. Yagmur, and G. Askin Determination of ascorbic acid in tablet dosage forms and some fruit Juices by DPV International Journal of Electrochemical Science 3 2008 1534 1542
5. Y.J. Pang, J. Chen, C.Y. Cao, and Q. Zhang Determination of ascorbic acid in grocery and drink by HPLC Modern Journal of Integrated Traditional Chinese and Western Medicine 18 2009 555 556
6. T.N. Shekhovtsova, S.V. Muginova, J.A. Luchinina, and A.Z. Galimova Enzymatic methods in food analysis: determination of ascorbic acid Analytica Chimica Acta 573-574 2006 125 132
7. H.F. Zhang, L. Zhang, and X.H. Yang Determination of vitamin C in herba epimedii by ultraviolet spectrophotometry Chinese Journal of Spectroscopy Laboratory 26 2009 1508 1512
8. H.L. Jia, and K. Ren Determination of ascorbic acid by kinetic-fluorimetric method Chinese Journal of Spectroscopy Laboratory 28 2011 1702 1705
9. N. Xiao, and C.X. Yu Rapid-response and highly sensitive noncross-linking colorimetric nitrite sensor using 4-aminothiophenol modified gold nanorods Analytical Chemistry 82 2010 3659 3663
10. L.B. Wang, Y.Y. Zhu, L.G. Xu, W. Chen, H. Kuang, L.Q. Liu, A. Agarwal, C.L. Xu, and N.A. Kotov Side-by-side and end-to-end gold nanorod assemblies for environmental toxin sensing Angewandte Chemie International Edition 49 2010 1 5
11. Y.F. Zhang, B.X. Li, and C.L. Xu Visual detection of ascorbic acid via alkyne-azide click reaction using gold nanoparticles as a colorimetric probe Analyst 135 2010 1579 1584
12. J.W. Liu, and Y. Lu Fast colorimetric sensing of adenosine and cocaine based on a general sensor design involving aptamers and nanoparticles Angewandte Chemie International Edition 45 2006 90 94
13. X.D. Su, and R. Kanjanawaru Control of metal nanoparticles aggregation and dispersion by PNA and PNA-DNA complexes, and its application for colorimetric DNA detection ACS Nano 3 2009 2751 2759
14. F.M. Li, J.M. Liu, X.X. Wang, L.P. Lin, W.L. Cai, Y.N. Zeng, L.H. Zhang, and S.Q. Lin Non-aggregation based label free colorimetric sensor for the detection of Cr (VI) based on selective etching of gold nanorods Sensors and Actuators B 155 2011 817 822
15. G.Q. Wang, Z.P. Chen, and L.X. Chen Mesoporous silica-coated gold nanorods: towards sensitive colorimetric sensing of ascorbic acid via target-induced silver overcoating Nanoscale 3 2011 1756 1759
16. N. Babak, and A. Mostafa El-Sayed Preparation and growth mechanism of gold nanorods (NRs) using seed-mediated growth method Chemistry of Materials 15 2003 1957 1962
17. F.E. Rex, and A.D. Hernandez Campiglia, pushing the limits of mercury sensors with gold nanorods Analytical Chemistry 78 2006 445 451
18. J. Chang, H. Wu, H. Chen, Y. Ling, and W. Tan Oriented assembly of Au nanorods using biorecognition system Chemical Communications 8 2005 1092 1094
19. Z.S. Yang, Y.W. Lin, W.L. Tseng, and H.T. Chang Impacts that pH and metal ion concentration have on the synthesis of bimetallic and trimetallic nanorods from gold seeds Journal of Materials Chemistry 15 2005 2450 2454
20. C.C. Huang, Z.S. Yang, and H.T. Chang Synthesis of dumbbell-shaped Au-Ag core shell nanorods by seed-mediated growth under alkaline conditions Langmuir 20 2004 6089 6092
21. L. Polavarapu, and Q.H. Xu A single-step synthesis of gold nanochains using an amino acid as a capping agent and characterization of their optical properties Nanotechnology 19 2008 075601
22. M.B. Mohamed, K.Z. Ismail, S. Link, and M.A. El-Sayed Thermal reshaping of gold nanorods in micelles Journal of Physical Chemistry B 102 1998 9370 9374
23. C.G. Wang, T.T. Wang, Z.F. Ma, and Z.M. Su pH-tuned synthesis of gold nanostructures from gold nanorods with different aspect ratios Nanotechnology 16 2005 2555 2560