Fluorescent Proteins For Color-Conversion Light-Emitting Diodes

Yıl 2016, Cilt: 20 Sayı: 3, 490 - 495, 21.11.2016

Sedat Nızamoglu

https://doi.org/10.19113/sdufbed.89206

Cited By: 10

Öz

Biologically derived fluorescent proteins are an attractive alternative to current color-conversion materials for solid state lighting applications, such as inorganic phosphors, organic dyes and nanocrystal quantum dots. Despite extensive research into fluorescent proteins for biological applications, they were not explored to be used for color-conversion for light-emitting diodes. In this study we investigate the in-solution characteristics of enhanced green fluorescent protein (eGFP) and monomeric cherry (mCherry) for LED applications. We demonstrate that these proteins can be used to completely convert the electroluminescence of a pump LED to photoluminescence. We show that up to typical pump driving current (150 mA) there is no saturation or bleaching of the proteins. Moreover, we compare the performance of in-solution unpurified and purified proteins as color convertors for LEDs and we show that unpurified fluorescent proteins in solution are suitable for color conversion applications.

Anahtar Kelimeler

Light emitting diodes, Fluorescent proteins; Photoluminescence; Color Conversion

Kaynakça

• [1] Tsien, R. Y. 1998. The green fluorescent protein. Annual Review Of Biochemistry, 67(1), 509-544.
• [2] Day, R. N., Davidson, M. W. 2009. The fluorescent protein palette: tools for cellular imaging. Chemical Society Reviews, 38(10), 2887-2921.
• [3] Gather, M. C., Yun, S. H. 2014. Bio-optimized energy transfer in densely packed fluorescent protein enables near-maximal luminescence and solid-state lasers. Nature Communications, 5, 5722.
• [4] Gather, M. C., Yun, S. H. 2011. Single-cell biological lasers. Nature Photonics, 5(7), 406-410.
• [5] Krames, M.R., Shchekin, O.B., Mueller-Mach, R., Mueller, G.O., Zhou, L., Harbers, G., Craford, M.G. 2007. Status and Future of High-Power Light-Emitting Diodes for Solid-State Lighting. Journal of Display Technology, 3(2), 160-175.
• [6] Schubert, E.F., Gessmann, T., Kim, J.K. 2005. Light emitting diodes. Wiley Online Library.
• [7] Graydon, O. 2011. The new oil?. Nature Photonics, 5(1), 1-1.
• [8] Nizamoglu, S., Ozel, T., Sari, E., Demir, H. V. 2007. White Light Generation Using CdSe/ZnS Core-Shell Nanocrystal Hybridized with InGaN/GaN Light Emitting Diodes. Nanotechnology, 18, 065709.
• [9] Weber, M.D., Niklaus, L., Pröschel, M., Coto, P.B., Sonnewald, U., Costa, R.D. 2015. Bioinspired Hybrid White Light-Emitting Diodes. Advanced Materials, 27(37), 5493-5498.
• [10] Goedhart, J., von Stetten, D., Noirclerc-Savoye, M., Lelimousin, M., Joosen, L., Hink, M.A., van Weeren, L., Gadella Jr, T.W., Royant, A. 2012. Structure-guided evolution of cyan fluorescent proteins towards a quantum yield of 93%. Nature Communications, 3, 751.