Chapter 13 • Upconversion and Downconversion Processes for Photovoltaics  295



                   [31] (a) Goldschmidt JC, Fischer s, steinkemper h, hallermann F, von Plessen G, Krämer KW, et al: IEEE J
                     Photovoltaics 2:134, 2012. (b) Garcia-Adeva AJ: J Lumin 128:697, 2008.
                   [32] (a)Fischer s, hallermann F, eichelkraut T, von Plessen G, Krämer KW, Biner D, et al: Opt Express
                     21:10606, 2013. (b)Fischer s, hallermann F, eichelkraut T, von Plessen G, Krämer KW, Biner D, et al:
                     Opt Express 20:271, 2012.
                   [33] herter B, Wolf s, Fischer s, Gutmann J, Blasi B, Goldschmidt JC: Opt Express 21:A883, 2013.
                   [34] Verhagen e, Kuipers l, Polman A: Opt Express 17:14586, 2009.
                   [35] Wu DM, García-etxarri A, salleo A, Dionne JA: J Phys Chem Lett 5:4020, 2014.
                   [36] Gordon J, Ballato J, smith DW Jr, Jin J: J Opt Soc Am B 22:1654, 2005.
                   [37] smith DW Jr, Chen s, Kumar sM, Ballato J, Topping C, shah hV, et al: Adv Mater 14:1585, 2002.
                   [38] Kraemer KW, Biner D, Frei G, G€udel hU, hehlen MP, luethi sr: Chem Mater 16:1244, 2004.
                   [39] ehrmann Pr, Campbell Jh. J Am Ceram soc 2002;85:1061; Feng X, Tanabe s, hanada T. J Appl Phys
                     2001;89:3560; Xun Zy, Chen XX, Fen C, hui lJ, Bo yG. Opt electron lett 2012;8:0273.
                   [40] Dexter Dl, schulman Jh: J Chem Phys 22:1063, 1954.
                   [41] simon yC, Weder C: J Mater Chem 22:20817, 2012.
                   [42] (a) singh-rachford Tn, Castellano Fn: Coordin Chem Rev 254:2560, 2010. (b) Zhao J, Ji s, Guo h: RSC
                     Adv 1:937, 2011.
                   [43] saxena Vn: Indian J Pure Appl Phys 21:306, 1983.
                   [44] Boyer J-C, van Veggel FCJM: Nanoscale 2:1417, 2010.
                   [45] Ivaturi A, MacDougall sKW, Martin-rodriguez r, Quintanilla M, Marques-hueso J, Kramer KW, et al:
                     J Appl Phys 114:013505, 2013.
                   [46] MacDougall  sKW, Ivaturi A, Marques-hueso J, Krämer KW,  richards Bs:  Sol Energy Mater Sol C
                     128:18, 2014.
                   [47] Fischer  s, Martín-rodríguez  r, Fröhlich B, Krämer KW, Meijerink A, Goldschmidt JC:  J Lumin
                     153:281, 2014.
                   [48] Martín-rodríguez r, Fischer s, Ivaturi A, Froehlich B, Krämer KW, Goldschmidt JC, et al: Chem Mater
                     25:1912, 2013.
                   [49] Pokhrel M, Kumar G, sardar D: J Mater Chem A 1:11595, 2013.
                   [50] yeh DC, sibley WA, schneider I, Afzal rs, Aggarwal I: J Appl Phys 69:1648, 1991.
                   [51] Ivanova s, Pellé F: J Optical Soc Am B 26:1930, 2009.
                   [52] shalav A, richards Bs, Trupke T, Corkish rP, Krämer KW, Güdel hU, et al. In: Presented at Proc. 3rd
                     world conf. photovoltaic energy conversion, Osaka, Japan, May 11–18; 2003.
                   [53] shalav A, richards Bs, Trupke T, Krämer KW, Güdel hU: Appl Phys Lett 86:13505, 2005.
                   [54] richards Bs, shalav A: IEEE Trans Electron Devices 54:2679, 2007.
                   [55] Fischer s, Goldschmidt JC, löper P, Bauer Gh, Brüggemann r, Krämer K, et al: J Appl Phys 108:044912,
                     2010.
                   [56] rüdiger M, Fischer s, Frank J, Ivaturi A, richards Bs, Krämer KW, et al: Sol Energy Mater Sol C 128:57,
                     2014.
                   [57] Fischer s, Ivaturi A, Frohlich B, rudiger M, richter A, Kramer KW, et al: IEEE J Photovoltaics 4:183,
                     2014.
                   [58] Fischer s. [Dissertation]. Albert-ludwigs Universität Freiburg; 2014. IsBn:978–3–8396–0785–5.
                   [59] Arnaoutakis Ge, Marques-hueso J, Ivaturi A, Kraemer KW, Fischer  s, Goldschmidt JC, et  al:  Opt
                     Express 22:A452, 2014.