Simulation and Size Optimization of PbSe Quantum Dots Luminescent Solar Concentrator

Tian Yue Xu; Yu Zhang; Ke Bi; Tie Qiang Zhang

doi:10.4028/www.scientific.net/AMR.900.213

Paper Titles

Study on Nanocomposite Membranes with Enhanced Performance for Forward Osmosis
p.191

Analysis on the Crystallographic Orientation of Micro-Area under High Magnetic Field
p.199

First Principles Studies on Structural, Electronic and Optical Properties of SnO₂
p.203

Optimal Design and Preparation of Novel Radiation Shielding Materials Used for Low Energy γ/X-Ray
p.209

Simulation and Size Optimization of PbSe Quantum Dots Luminescent Solar Concentrator
p.213

Study on Electronic Structure of GaN under Pressure
p.217

Study the Coupled-Cavity Waveguides Photonic Crystal Power Splitter
p.222

Effect on Coal Physicochemical Properties from Added Foreign Chemicals
p.229

Effects of Preparation Process Parameters on Performance of Microencapsulated Paraffin/Polyurea Phase Change Materials
p.233

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 900Simulation and Size Optimization of PbSe Quantum...

Simulation and Size Optimization of PbSe Quantum Dots Luminescent Solar Concentrator

Abstract:

PbSe quantum dots have a relavively narrow absorption spectrum and they can radiate quasi monochromatic light after absorbing sunlight. Also, the emission peak can be located in the range of the strongest spectral response of monocrystal silicon solar cell by adjusting particles sizes. In this paper we apply PbSe quantum dots into luminescent solar concentrator, analyse its physical process, establish mathematical model and optimize its size with C++. The simulation results show that its photoelectric conversion efficiency is size depended, when the length and width are 200cm and 150cm, respectively, its photoelectric transformation efficiency can reach 6.1%.