Tissue Engineering And Nanotheranostics

b2815 Tissue Engineering and Nanotheranostics “9.61x6.69”

202 Tissue Engineering and Nanotheranostics

171. Persson BNJ, and Lang ND. Electron­hole­pair quenching of excited
     states near a metal. Phys. Rev. B. 26 (10), 5409–5415 (1982).


172. Kuhnke K, et al. C 60 Exciton quenching near metal surfaces. Phys.
     Rev. Lett. 79 (17), 3246–3249 (1997).


173. Seferos DS, et al. Nano­flares: probes for transfection and mRNA
     detection in living cells. J. Am. Chem. Soc. 129 (50), 15477–15479
     (2011).


174. Prigodich AE, et al. Multiplexed nanoflares: mRNA detection in live
     cells. Anal. Chem. 84 (4), 2062–2066 (2012).


175. Prigodich AE, et al. Nano­flares for mRNA Regulation and Detection.
     Acs Nano 3 (8), 2147–2152 (2009).


176. Zheng D, et al. Aptamer nano­flares for molecular detection in living
     cells. Nano Lett. 9 (9), 3258–3261 (2009).


177. Tyagi S, and Kramer FR. Molecular beacons: probes that fluoresce
     upon hybridization. Nat. Biotechno. 14 (3), 303–308 (1996).


178. Wang K, et al. Molecular engineering of DNA: molecular beacons.
     Angew. Chemie. 48 (5), 856–870 (2009).


179. Dubertret B, Calame M, and Libchaber AJ. Single­mismatch detec­
     tion using gold­quenched fluorescent oligonucleotides. Nat. Biotechno.
     19 (4), 365–370 (2001).


180. Zhang J, et al. Aptamer­based multicolor fluorescent gold nanoprobes
     for multiplex detection in homogeneous solution. Small 6 (2), 201–
     204 (2010).


181. Song S, et al. Gold­nanoparticle­based multicolor nanobeacons for
     sequence­specific DNA analysis. Angew. Chem. 48 (46), 8670–8674
     (2009).


182. Lakowicz JR, Radiative decay engineering 5: metal­enhanced fluores­
     cence and plasmon emission. Anal. Biochem. 337 (2), 171–194
     (2005).


183. Krishnan KS, A New Type of Secondary Radiation. Nat. 121 (3048),
     501–502 (1927).


184. Zavaleta CL, Kircher MF, and Gambhir SS. Raman’s “effect” on
     molecular imaging. Journal of Nuclear Medicine Official Publication
     Society of Nuclear Medicine 52 (12), 1839–1844 (2011).


185. Lombardi JR, and Birke RL. The theory of surface­enhanced Raman
     scattering. J. Chem. Phys. 136 (136), 2018–2029 (2012).


186. Andreou C, Kishore SA, and Kircher MF. Surface­Enhanced Raman
     Spectroscopy: A New Modality for Cancer Imaging. Journal Nuclear
     Medicine Official Publication Society of Nuclear Medicine 56 (9),
     1295–1299 (2015).