Themed collection Perovskite solar cells – Topic Highlight

20 items
Open Access Perspective

Perspectives on the mechanical robustness of flexible perovskite solar cells

This perspective highlights recent advances in improving the mechanical robustness of FPSCs and prospects to clarify the mechanism between the mechanical behavior and the photoelectric performance.

Graphical abstract: Perspectives on the mechanical robustness of flexible perovskite solar cells
From the themed collection: Energy Advances Recent Review Articles
Open Access Review Article

Synthetic approaches for perovskite thin films and single-crystals

Halide perovskites are compelling candidates for the next generation of photovoltaic technologies owing to an unprecedented increase in power conversion efficiency and their low cost, facile fabrication and outstanding semiconductor properties.

Graphical abstract: Synthetic approaches for perovskite thin films and single-crystals
From the themed collection: Energy Advances Recent Review Articles
Open Access Communication

Enhancing perovskite solar cell efficiency and stability through the incorporation of BDAI2 and DMPDAI2

This research explores the incorporation of 2D materials, BDAI2 and DMPDAI2, into perovskite solar cells, demonstrating enhanced efficiency and stability in the resulting devices.

Graphical abstract: Enhancing perovskite solar cell efficiency and stability through the incorporation of BDAI2 and DMPDAI2
Open Access Communication

Rear textured p-type high temperature passivating contacts and their implementation in perovskite/silicon tandem cells

High temperature passivating p-type contacts on textured surfaces with iVOC up to 725 mV and contact resistance below 90 mΩ cm2. 28.25% tandem PK/c-Si solar cells rear side textured with high temperature passivating contacts.

Graphical abstract: Rear textured p-type high temperature passivating contacts and their implementation in perovskite/silicon tandem cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Communication

An efficient Buchwald–Hartwig amination protocol enables the synthesis of new branched and polymeric hole transport materials for perovskite solar cells

Efficient and sustainable Buchwald-Hartwig amination enables the synthesis of new branched and polymeric HTL materials for perovskite solar cells with performances comparable with those of Spiro-OMeTAD.

Graphical abstract: An efficient Buchwald–Hartwig amination protocol enables the synthesis of new branched and polymeric hole transport materials for perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Communication

Simple approach for an electron extraction layer in an all-vacuum processed n-i-p perovskite solar cell

C60:BCP (bathocuproine) mixture, significantly improved electron extraction in an all-vacuum processed n-i-p perovskite solar cell.

Graphical abstract: Simple approach for an electron extraction layer in an all-vacuum processed n-i-p perovskite solar cell
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Communication

Stabilizing all-inorganic CsPbI3 perovskite films with polyacrylonitrile for photovoltaic solar cells

The N atom in the side chain of the PAN skeleton coordinated with the exposed Pb atom on the CsPbI3 perovskite, which effectively passivated the defects of CsPbI3 crystal grains, and the PCE of the CsPb3I3-based PSCs improved from 14.36% to 16.21%.

Graphical abstract: Stabilizing all-inorganic CsPbI3 perovskite films with polyacrylonitrile for photovoltaic solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Life cycle assessment of low-dimensional materials for perovskite photovoltaic cells

Perovskite solar cells integrated with lower dimensional materials can outperform the environmental performance of conventional solar photovoltaic technologies such as crystalline silicon, CIGS, and CdTe with shorter lifetimes.

Graphical abstract: Life cycle assessment of low-dimensional materials for perovskite photovoltaic cells
Open Access Paper

An ambient process for hole transport layer-free highly stable MAPbI3 by addition of MACl for efficient perovskite solar cells

An ambient process for the fabrication of HTL-free carbon-based perovskite solar cells at room temperature with the addition of an optimized amount of MACl into the perovskite precursor solution.

Graphical abstract: An ambient process for hole transport layer-free highly stable MAPbI3 by addition of MACl for efficient perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Decal Ni mesh to enhance the conductivity of carbon back contacts in dye sensitized and perovskite solar cells

Decal of a nickel mesh prepared by photolithography-assisted electroplating on carbon counter-electrode of dye sensitized and perovskite solar cells improves the conductivity of the back contact and the performance of the devices.

Graphical abstract: Decal Ni mesh to enhance the conductivity of carbon back contacts in dye sensitized and perovskite solar cells
From the themed collection: Energy Advances: Highlight UK & Europe
Open Access Paper

Strategies to improve the mechanical robustness of metal halide perovskite solar cells

We demonstrate the fragility of perovskite solar cells is typically in the small molecule electron transport layer and show strategies for designing more mechanically and operationally robust devices by improving the layers and interfaces.

Graphical abstract: Strategies to improve the mechanical robustness of metal halide perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

An Fe3O4 based hole transport bilayer for efficient and stable perovskite solar cells

Insertion of a thin inorganic Fe3O4 layer between perovskite and spiro-OMeTAD improves charge extraction and device efficiency and also boosts device shelf-life stability.

Graphical abstract: An Fe3O4 based hole transport bilayer for efficient and stable perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Design and development of a low-cost imidazole-based hole transporting material for perovskite solar cells

Low-cost and facile synthesis routes of hole-transporting materials (HTMs) are promising approaches to minimize the total cost of perovskite solar cells (PSCs) on both laboratory and commercial scales.

Graphical abstract: Design and development of a low-cost imidazole-based hole transporting material for perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Dopant-free small-molecule hole-transport material for low-cost and stable perovskite solar cells

Dopant-free hole-transporting materials (HTMs) aim to improve efficiency and stability simultaneously, and are a promising direction for efficient perovskite solar cells (PSCs).

Graphical abstract: Dopant-free small-molecule hole-transport material for low-cost and stable perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Role of antisolvent temperature and quaternary ammonium cation-based ionic liquid engineering in the performance of perovskite solar cells processed under air ambient conditions

Low-temperature of the chlorobenzene antisolvent and trimethylpropylammonium bis(trifluoromethanesulfonyl)imide ionic liquid at the TiO2/perovskite interface improves the device efficiency and stability.

Graphical abstract: Role of antisolvent temperature and quaternary ammonium cation-based ionic liquid engineering in the performance of perovskite solar cells processed under air ambient conditions
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

A chlorinated polythiophene-based polymer as a dopant-free hole transport material in perovskite solar cells

We report a chlorine-substituted polythiophene-based, dioxobenzodithiophene-containing conjugated polymer (P2T-Cl) as a promising dopant-free hole transport material in lead halide perovskite solar cells.

Graphical abstract: A chlorinated polythiophene-based polymer as a dopant-free hole transport material in perovskite solar cells
Open Access Paper

Low-intensity low-temperature analysis of perovskite solar cells for deep space applications

Perovskite solar cells (PSCs) are studied in low-intensity low-temperature (LILT) conditions before and after low energy proton irradiation to characterize device performance at deep space mission-relevant light intensities and temperatures.

Graphical abstract: Low-intensity low-temperature analysis of perovskite solar cells for deep space applications
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Perovskite device efficiency is a poor predictor for the number of citations a paper will get

Beeswarm plot for over 7000 papers with original perovskite solar cell data, where the area of the circles corresponds to the number of citations the papers had obtained by 2022-03-26 and the colour reflects the top device efficiency in each paper.

Graphical abstract: Perovskite device efficiency is a poor predictor for the number of citations a paper will get
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Enhancing the lifetime of inverted perovskite solar cells using a new hydrophobic hole transport material

The lifetime of inverted PSCs is extended by employing for the first time the hydrophobic conjugated polymer PIDTTDQ. The optimized PIDTTDQ device shows an increased PCE due to the improved HTL/Perovskite interface while having enhanced moisture, light and thermal stability.

Graphical abstract: Enhancing the lifetime of inverted perovskite solar cells using a new hydrophobic hole transport material
From the themed collection: Perovskite solar cells – Topic Highlight
Open Access Paper

Low-temperature annealed methylammonium-free perovskites prepared under ambient conditions in C electrode-based perovskite solar cells

A study of the optimization of methylammonium (MA) free perovskite compositions, targeted for their application in hole transport layer (HTL) free perovskite solar cells with a carbon electrode (C-PSCs), is presented.

Graphical abstract: Low-temperature annealed methylammonium-free perovskites prepared under ambient conditions in C electrode-based perovskite solar cells
From the themed collection: Perovskite solar cells – Topic Highlight
20 items

About this collection

Energy Advances features cutting-edge science at the forefront of energy technology with a particular focus on emerging materials and methods. This collection highlights some of our recent publications on perovskite solar cells.

Our multidisciplinary journal seeks further contributions in this area, including material development and film fabrication, interface engineering, investigating the chemical and environmental stability of perovskite solar cells and device architecture and engineering.

To contribute your research, please visit our submission platform.

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