10.5. Literatura


1.      Dreaden, E.C., Alkilany, A.M., Huang, X., Murphy, C.J., El-Sayed, M.A. The golden age: Gold
nanoparticles for biomedicine (2012) Chemical Society Reviews, 41 (7), pp. 2740–2779.


2.      Huang, X., El-Sayed, I.H., Qian, W., El-Sayed, M.A. Cancer cell imaging and photothermal
therapy in the near-infrared region by using gold nanorods (2006) Journal of the American Chemical
Society, 128 (6), pp. 2115–2120.


3.      Schmidt, G.: Nanoparticles From Theory to Application, 2. vyd. WILEY-VCH, Weinheim 2010.


4.      Mao, X., Ma, Y., Zhang, A., Zhang, L., Zeng, L., Liu, G. Disposable nucleic acid biosensors
based on gold nanoparticle probes and lateral flow strip (2009) Analytical Chemistry, 81 (4), pp.
1660–1668.


5.      Li, J.F., Huang, Y.F., Ding, Y., Yang, Z.L., Li, S.B., Zhou, X.S., Fan, F.R., Zhang, W.,
Zhou, Z.Y., Wu, D.Y., Ren, B., Wang, Z.L., Tian, Z.Q. Shell-isolated nanoparticle-enhanced Raman
spectroscopy (2010) Nature, 464 (7287), pp. 392–395.


6.      Hlaváček, A., Skládal, P. The application of quantum dots in bioanalytical chemistry
[Kvantové tečky: Příprava, konjugace a využití v bioanalytické chemii a biologii] (2011) Chemicke
Listy, 105 (8), pp. 611–615.


7.      Lowe J. P., Peterson K.: Quantum Chemistry, 3. vyd. Elsevier, Amsterdam 2006.


8.      Giepmans, B.N.G., Adams, S.R., Ellisman, M.H., Tsien, R.Y. The fluorescent toolbox for
assessing protein location and function (2006) Science, 312 (5771), pp. 217–224.


9.      Reiss, P., Protičre, M., Li, L. Core/shell semiconductor nanocrystals (2009) Small, 5 (2),
pp. 154–168.


10.  Resch-Genger, U., Grabolle, M., Cavaliere-Jaricot, S., Nitschke, R., Nann, T. Quantum dots
versus organic dyes as fluorescent labels (2008) Nature Methods, 5 (9), pp. 763–775.


11.  Jaiswal, J.K., Mattoussi, H., Mauro, J.M., Simon, S.M. Long-term multiple color imaging of
live cells using quantum dot bioconjugates (2003) Nature Biotechnology, 21 (1), pp. 47–51.


12.  Jaiswal, J.K., Simon, S.M. Potentials and pitfalls of fluorescent quantum dots for biological
imaging (2004) Trends in Cell Biology, 14 (9), pp. 497–504.


13.  Park, Y.I., Lee, K.T., Suh, Y.D., Hyeon, T. Upconverting nanoparticles: A versatile platform
for wide-field two-photon microscopy and multi-modal in vivo imaging (2015) Chemical Society
Reviews, 44 (6), pp. 1302–1317.


14.  Zhou, J., Liu, Q., Feng, W., Sun, Y., Li, F. Upconversion luminescent materials: Advances and
applications (2015) Chemical Reviews, 115 (1), pp. 395–465.


15.  Sedlmeier, A., Gorris, H.H. Surface modification and characterization of photon-upconverting
nanoparticles for bioanalytical applications (2015) Chemical Society Reviews, 44 (6), pp.
1526–1560.


16.  Cohen, B.E. Biological imaging: Beyond fluorescence (2010) Nature, 467 (7314), pp. 407–408.


17.  Hlaváček, A. Nanočástice vykazující fotonovou up-konverzi: Nový typ luminiscenční značky pro
zobrazování jednotlivých biomolekul? (2015) Bioprospect, 25 (2), pp. 38–41.


18.  Zhan, Q., He, S., Qian, J., Cheng, H., Cai, F. Optimization of optical excitation of
upconversion nanoparticles for rapid microscopy and deeper tissue imaging with higher quantum field
(2013) Theranostics, 3 (5), pp. 306–316.