Biomedical Engineering Reference
In-Depth Information
67. Yun CS, Javier A, Jennings T, Fisher M, Hira S, Peterson S, Hopkins B, Reich NO, Strouse
GF (2005) Nanometal surface energy transfer in optical rulers, breaking the FRET barrier. J
Am Chem Soc 127:3115-3119
68. Dulkeith E, Morteani AC, Niedereichholz T, Klar TA, Feldmann J, Levi SA, van Veggel FC,
Reinhoudt DN, M oller M, Gittins DI (2002) Fluorescence quenching of dye molecules near
gold nanoparticles: radiative and nonradiative effects. Phys Rev Lett 89:203002
69. Dubertret B, Calame M, Libchaber AJ (2001) Single-mismatch detection using gold-
quenched fluorescent oligonucleotides. Nat Biotechnol 19:365-370
70. Wang W, Chen C, Qian M, Zhao X (2008) Aptamer biosensor for protein detection using gold
nanoparticles. Anal Biochem 373:213-219
71. Huang CC, Chiu SH, Huang YF, Chang HT (2007) Aptamer-functionalized gold nanopar-
ticles for turn-on light switch detection of platelet-derived growth factor. Anal Chem
79:4798-4804
72. Zheng D, Seferos DS, Giljohann DA, Patel PC, Mirkin CA (2009) Aptamer nano-flares for
molecular detection in living cells. Nano Lett 9:3258-3261
73. Zhang J, Wang L, Zhang H, Boey F, Song S, Fan C (2010) Aptamer-based multicolor fluores-
cent gold nanoprobes for multiplex detection in homogeneous solution. Small 6:201-204
74. Song S, Liang Z, Zhang J, Wang L, Li G, Fan C (2009) Gold-nanoparticle-based multicolor
nanobeacons for sequence-specific DNA analysis. Angew Chem Int Ed 48:8670-8674
75. Huang Y, Zhao S, Liang H, Chen Z, Liu Y (2011) Multiplex detection of endonucleases by
using a multicolor gold nanobeacon. Chem Eur J 17:7313-7319
76. Nie S, Emory SR (1997) Probing single molecules and single nanoparticles by surface-
enhanced Raman scattering. Science 275:1102-1106
77. Moskovits M (1985) Surface-enhanced spectroscopy. Rev Mod Phys 57:783-826
78. Futamata M, Maruyama Y, Ishikawa M (2003) Local electric field and scattering cross
section of Ag nanoparticles under surface plasmon resonance by finite difference time domain
method. J Phys Chem B 107:7607-7617
79. Kneipp K, Kneipp H, Itzkan I, Dasari RR, Feld MS (1999) Ultrasensitive chemical analysis
by Raman spectroscopy. Chem Rev 99:2957-2975
80. Bell SEJ, Sirimuthu NMS (2006) Surface-enhanced Raman spectroscopy (SERS) for sub-
micromolar detection of DNA/RNA mononucleotides. J Am Chem Soc 128:15580-15581
81. Barhoumi A, Zhang D, Tam F, Halas NJ (2008) Surface-enhanced Raman spectroscopy of
DNA. J Am Chem Soc 130:5523-5529
82. Bailo E, Deckert V (2008) Tip-enhanced Raman spectroscopy of single RNA strands: towards
a novel direct-sequencing method. Angew Chem Int Ed 47:1658-1661
83. Qian XM, Zhou X, Nie S (2008) Surface-enhanced Raman nanoparticle beacons based
on bioconjugated gold nanocrystals and long range plasmonic coupling. J Am Chem Soc
130:14934-14935
84. Faulds K, Smith WE, Graham D (2004) Evaluation of surface-enhanced resonance Raman
scattering for quantitative DNA analysis. Anal Chem 76:412-417
85. Lim DK, Jeon KS, Kim HM, Nam JM, Suh YD (2010) Nanogap-engineerable Raman-active
nanodumbbells for single-molecule detection. Nat Mater 9:60-67
86. Wang Y, Wei H, Li B, Ren W, Guo S, Dong S, Wang E (2007) SERS opens a new way
in aptasensor for protein recognition with high sensitivity and selectivity. Chem Commun:
5220-5222
87. Wang Y, Lee K, Irudayaraj J (2010) SERS aptasensor from nanorod-nanoparticle junction for
protein detection. Chem Commun 46:613-615
88. Chen J, Jiang J, Gao X, Liu G, Shen G, Yu R (2008) A new aptameric biosensor for cocaine
based on surface-enhanced Raman scattering spectroscopy. Chem Eur J 14:8374-8382
89. Chen JW, Liu XP, Feng KJ, Liang Y, Jiang JH, Shen GL, Yu RQ (2008) Detection of adenosine
using surface-enhanced Raman scattering based on structure-switching signaling aptamer.
Biosens Bioelectron 24:66-71
90. Li M, Zhang J, Suri S, Sooter LJ, Ma D, Wu N (2012) Detection of adenosine triphos-
phate with an aptamer biosensor based on surface-enhanced Raman scattering. Anal Chem
84:2837-2842
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