Advances in Tandem Architectures toward High-Efficiency Solar Cells
A special issue of Energies (ISSN 1996-1073). This special issue belongs to the section "A2: Solar Energy and Photovoltaic Systems".
Deadline for manuscript submissions: closed (21 July 2023) | Viewed by 14088
Special Issue Editors
Interests: transparent conductors; nanostructured optoelectronic materials for optoelectronic devices, including photodetectors, solar cells, etc.
Special Issues, Collections and Topics in MDPI journals
Interests: thin film; perovskite and DSSC solar cells; photoelectrochemical cells; photophysics of energy materials; photoelectrochemical solar to fuel conversion
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Tapping the vast energy available from the sun in the form of electricity and chemical fuels has the tremendous potential to address the global energy supply and climate change. Over the years, power conversion efficiencies have improved drastically due to both material innovation and advanced processing techniques. Of those, tandem architectures have emerged which are extremely promising when it comes to pushing the frontiers beyond single junction efficiency limits due to their efficient utilization of the solar energy spectrum and innovation in device design.
Recently, with the emergence of perovskite materials and developments in thin films (CIGS,CZTS, Sb2Se3), solar cells have drastically changed the landscape with more options available to stack different material combinations in 4-T and 2-T configurations. Additionally, 3-T design is also attracting attention due to its unique operational functionality, which relaxes the current matching criterion. Along with that, contact layers are becoming increasingly important for monolithic cell design. Such solar cell designs represent potentially disruptive technologies for electricity generation and drive photoelectrochemical reactions for chemical fuel production.
Therefore, this Special Issue calls for high-quality research progress on tandem solar cell materials, design, contact layers, and their utilization.
Subjects covered in this Special Issue include but are not limited to:
- Wide bandgap (Eg > 1.5 eV) solar cell materials for tandem;
- Band gap tunable materials for tandem;
- Theoretical insights on efficiency potential of 4-T, 2-T, and 3-T tandem solar cells;
- Tandem solar architectures to drive photoelectrochemical HER and CO2R reaction;
- Low band gap (Eg < 1.5 eV) materials for tandem;
- Multijunction approaches for high Voc and IR spectrum utilization;
- Development of transparent conductors (front and back contact);
- Microstructure design for light capturing;
- Technoeconomic analysis of the tandem solar cells.
Dr. Xiaojie Xu
Dr. Sudhanshu Shukla
Guest Editors
Manuscript Submission Information
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Keywords
- Tandem solar cell
- Multijunction solar cell
- Wide bandgap photovoltaic material
- Low bandgap photovoltaic material
- Utilization of solar spectrum
- Perovskite solar cell
- Silicon solar cell
- Thin film solar cell
- Quantum dot solar cell
- Transparent conductor
- Front contact
- Back contact
- Light capture
- Modeling and simulation of tandem solar cell
- Technoeconomic analysis
- Open circuit voltage (Voc)
- External quantum efficiency (EQE)
- Fill Factor (FF)
- Power conversion efficiency
- Cost per watt
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