Journal ArticleDOI
Energy conversion approaches and materials for high-efficiency photovoltaics
Martin A. Green,Stephen Bremner +1 more
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The overall prospects for a range of approaches that can potentially exceed Shockley-Queisser limits are assessed, based on ultimate efficiency prospects, material requirements and developmental outlook.Abstract:
The past five years have seen significant cost reductions in photovoltaics and a correspondingly strong increase in uptake, with photovoltaics now positioned to provide one of the lowest-cost options for future electricity generation. What is becoming clear as the industry develops is that area-related costs, such as costs of encapsulation and field-installation, are increasingly important components of the total costs of photovoltaic electricity generation, with this trend expected to continue. Improved energy-conversion efficiency directly reduces such costs, with increased manufacturing volume likely to drive down the additional costs associated with implementing higher efficiencies. This suggests the industry will evolve beyond the standard single-junction solar cells that currently dominate commercial production, where energy-conversion efficiencies are fundamentally constrained by Shockley-Queisser limits to practical values below 30%. This Review assesses the overall prospects for a range of approaches that can potentially exceed these limits, based on ultimate efficiency prospects, material requirements and developmental outlook.read more
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The path towards sustainable energy
Steven Chu,Yi Cui,Nian Liu +2 more
TL;DR: Research in materials science is contributing to progress towards a sustainable future based on clean energy generation, transmission and distribution, the storage of electrical and chemical energy, energy efficiency, and better energy management systems.
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Particulate Photocatalysts for Light-Driven Water Splitting: Mechanisms, Challenges, and Design Strategies
TL;DR: This review illustrates that it is possible to employ the fundamental principles underlying photosynthesis and the tools of chemical and materials science to design and prepare photocatalysts for overall water splitting.
Journal ArticleDOI
Mutual Insight on Ferroelectrics and Hybrid Halide Perovskites: A Platform for Future Multifunctional Energy Conversion.
Richa Pandey,Gaurav Vats,Jae Yun,Christopher R. Bowen,Anita Ho-Baillie,Jan Seidel,Keith T. Butler,Sang Il Seok +7 more
TL;DR: An insight into the analogies, state-of-the-art technologies, concepts, and prospects under the umbrella of perovskite materials (both inorganic-organic hybrid halideperovskites and ferroelectric perovkites) for future multifunctional energy conversion and storage devices is provided.
Journal ArticleDOI
Minimizing non-radiative recombination losses in perovskite solar cells
TL;DR: In this paper, the predominant pathways that contribute to non-radiative recombination losses in perovskite solar cells, and evaluate their impact on device performance are analyzed, and some notable advances in mitigating these losses are highlighted.
Journal ArticleDOI
Present status and future prospects of perovskite photovoltaics
TL;DR: Solar cells based on metal halide perovskites continue to approach their theoretical performance limits thanks to worldwide research efforts, and mastering the materials properties and addressing stability may allow this technology to bring profound transformations to the electric power generation industry.
References
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Journal ArticleDOI
Detailed Balance Limit of Efficiency of p‐n Junction Solar Cells
TL;DR: In this article, an upper theoretical limit for the efficiency of p−n junction solar energy converters, called the detailed balance limit of efficiency, has been calculated for an ideal case in which the only recombination mechanism of holeelectron pairs is radiative as required by the principle of detailed balance.
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The emergence of perovskite solar cells
TL;DR: In this article, a review describes the rapid progress that has been made in hybrid organic-inorganic perovskite solar cells and their applications in the photovoltaic sector.
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Quantum dot solar cells
TL;DR: In this article, three QD solar cell configurations are described: (1) photoelectrodes comprising QD arrays, (2) QD-sensitized nanocrystalline TiO 2, and (3) QDs dispersed in a blend of electron- and hole-conducting polymers.
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Increasing the Efficiency of Ideal Solar Cells by Photon Induced Transitions at Intermediate Levels
Antonio Luque,Antonio Martí +1 more
TL;DR: In this article, the authors present an analysis of such a structure under ideal conditions and prove that its efficiency can exceed not only the Shockley and Queisser efficiency for ideal solar cells but also that for ideal two-terminal tandem cells which use two semiconductors, as well as that predicted for ideal cells with quantum efficiency above one but less than two.
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The theory of p-n junctions in semiconductors and p-n junction transistors
TL;DR: The theory of potential distribution and rectification for p-n junctions is developed with emphasis on germanium, resulting in an admittance for a simple case varying as (1 + iωτ p )1/2 where τ p is the lifetime of a hole in the n-region.