PHOTOVOLTAICS Direct Conversion of Sunlight to Electricity David T Britton, NanoSciences Innovation Centre University of Cape Town Photovoltaic effect Early (simple) solar cells: 1839 – Heterojunction solar cells: 1946 – • principle of operation • commercial solar cells and modules Distributed junction solar cells State of the Art?
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PHOTOVOLTAICS Direct Conversion of Sunlight to Electricity David T Britton, NanoSciences Innovation Centre University of Cape Town Photovoltaic effect.
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PHOTOVOLTAICSDirect Conversion of Sunlight to Electricity
David T Britton,NanoSciences Innovation Centre
University of Cape Town
Photovoltaic effectEarly (simple) solar cells: 1839 – Heterojunction solar cells: 1946 – • principle of operation• commercial solar cells and modulesDistributed junction solar cellsState of the Art?
Single homogeneous material between two contactsDiffusion/drift of charge to one electrode gives currentVoltage is low
SIMPLE SOLAR CELLS
Becquerel 1839Adams & Day 1876
illuminated electrode is cathode
(photoresistors)
First thin film solar cell Charles Fritts 1882 Selenium with thin gold leaf front electrode, (transparent to green light) tin plated back electrodeAm J. Sci 26, 465 – 482 (1883)
PV discovered in Fritts cell by W. SiemensSitzungsber. Preuss. Akad.Wiss zu Berlin1885 (I), 147-148
Screen printed CdS, CdSe Y. T Sivhonen & S.G. Parker 1963, (Texas Instruments) US 3208022 (1965)
First fully printed silicon cell 2008
SIMPLE SOLAR CELLS
0 200 400 6000
10
20
30
DARK
LIGHT
Open Circuit Voltage
Pot
entia
l [V
]
Time [s]
(photoconductors)
HETEROJUNCTION SOLAR CELLS(photodiodes)
depletionlayer
P
N
Voc
open circuit
short circuit
electrons & holes produced in the junctionelectrons pulled to n-type layerholes puled to p-type layer
SCkTeV jejj 10
0
1lnjj
ekT
V SCOC
Inbuilt electric fieldAnode and Cathode given by diode direction
dark
light
Short circuit current jsc is from n to pOpen circuit : charge collection gives Voc
Standard test conditions (IEC 6125) 1kW/m2 25 0C AM1.5 sunlight spectrum 1 cm2 cell
Cell efficiency : maximum electrical power out/ radiant energy in Module efficiency: useful power out/radiant energy in EA
VIff
EA
VIocscmpmp
HETEROJUNCTION SOLAR CELLSEquivalent circuit
Quantum Efficiency (QE) = number charge carriers/number of photonsInternal quantum efficiency (IQE): only absorbed photonsExternal quantum efficiency (EQE): all photons hitting the cell