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Why Increased CdSeTe Charge Carrier Lifetimes and Radiative Efficiencies did not Result in Voltage Boost for CdTe Solar Cells

Journal Article · · Advanced Energy Materials
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  1. National Renewable Energy Laboratory 15013 Denver West Parkway Golden CO 80401 USA
  2. Department of Physics and Astronomy Bowling Green State University Bowling Green OH 43403 USA
  3. Department of Mechanical Engineering Colorado State University Fort Collins CO 80523 USA
  4. California Advanced Research First Solar, 1035 Walsh Avenue Santa Clara CA 95050 USA
+ Show Author Affiliations

Abstract

After a focused effort over the last decade, order‐of‐magnitude improvements in doping and electro‐optical characteristics (radiative efficiency, carrier lifetime, and passivation) have been reported for polycrystalline CdSeTe solar cells. Surprisingly, this did not result in higher solar cell voltages regardless of device contacting layers, absorber grading profiles, and other changes in device architecture. From detailed evaluation of radiative emission and carrier dynamics in CdSeTe heterostructures and devices, it is shown that the complexity introduced to the absorber to achieve lifetime and passivation metrics resulted in charge carrier trapping, which now negatively affects CdSeTe absorbers. It is found that the defects with activation energy E a ≈ 0.14‐0.22 eV dominate radiative emission and carrier dynamics in undoped CdSeTe, and electronic potential fluctuations with the amplitude  γ ≈ 45–60 meV are present in As‐doped CdSeTe/CdTe. Because of potential fluctuations, radiative voltage is reduced by ≈ −100 mV, to  = 1020‐1050 mV (for 1.4 eV bandgap). For record‐efficiency solar cells with V OC ≥900 mV, radiative and nonradiative recombination voltage losses are comparable, and future research needs to focus on reducing dopant compensation which causes potential fluctuations. This represents a paradigm shift for CdTe solar cells, with non‐radiative bulk recombination no longer representing a dominant voltage loss pathway.

Sponsoring Organization:
USDOE
Grant/Contract Number:
AC36-08GO28308
OSTI ID:
1995894
Alternate ID(s):
OSTI ID: 1996407
Journal Information:
Advanced Energy Materials, Journal Name: Advanced Energy Materials Journal Issue: 35 Vol. 13; ISSN 1614-6832
Publisher:
Wiley Blackwell (John Wiley & Sons)Copyright Statement
Country of Publication:
Germany
Language:
English

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