**Chapter 8**

*Solar Cells - Theory, Materials and Recent Advances*

quantum wells. Materials Letters.

[35] Ten S, Henneberger F, Rab M, Peyghambarian N. Femtosecond study of exciton tunneling in (Zn,Cd)Se/ZnSe asymmetric double quantum wells. Physical Review B. 1996;**53**:12637

[36] Hua J, Li-Gong Z, Zhu-hong Z, Anli-Nan, You-Ming L, Ji-Ying Z, et al. Temperature-Dependent Photoluminescence in Coupling

Letters. 2005;**22**:1518-1521

2002;**91**:10115

[37] Saint-Girons G, Sagnes I.

Surface Science. 1969;**16**:1-13

Materials. 2017;**11**(1-2):105-108

Structures of CdSe Quantum Dots and a ZnCdSe Quantum Well. Chinese Physics

Photoluminescence quenching of a lowpressure metal-organic vapor-phaseepitaxy grown quantum dots array with bimodal inhomogeneous

broadening. Journal of Applied Physics.

[38] Hall AC. A century of ellipsometry.

[39] Rahmouni S, Zighed L, Tifouti I, Hadnine S, Aida MS. Experimental study of porous silicon films prepared on N and P type monocrystalline silicon wafers. Optoelectronics and Advanced

[34] Zhao D, Li B, Wu C, Lu Y, Shen D, Zhang J, et al. Temperature dependence of carrier transfer and exciton localization in ZnO/ MgZnO heterostructure. Journal of Luminescence. 2006;**119-120**:304-308

2013;**6**:2

**124**
