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Perovskites materials are considered the future of solar cells, as their distinctive structure makes them perfect for enabling low-cost, efficient photovoltaics. They are also predicted to play a role in next-gen displays, batteries, sensors, and more.

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Recent Perovskite News

Power Roll partners with Amcor on solar PV film

Power Roll, developer of flexible PVs that feature  a unique combination of microgrooves and perovskites, has signed a Memorandum of Understanding (MOU) with Amcor, a global packaging solutions provider.

Power Roll and Amcor’s collaboration will be focused on advancing solar-powered energy by developing a lightweight solar photovoltaic film that aims to deliver a low-cost alternative to silicon solar panels. The company has a clear focus on capitalizing on growing market opportunities, focusing on the commercialization of its solar PV microgroove technology, which is not reliant on rare earth minerals and can be manufactured using roll-to-roll processes.

Read the full story Posted: Nov 20,2024

Researchers present 23.2% efficient low band gap perovskite solar cells using cyanogen management method

An international team of researchers, led by the University of Surrey with Imperial College London, recently reported a strategy to improve both the performance and stability for perovskite solar cells by mitigating a previously hidden degradation pathway.

In their new study, the scientists detail how they produced lead-tin perovskite solar cells that reach more than 23% power conversion efficiency (PCE) – which the team says is one of the best results achieved with this material and importantly, a design strategy which improves the lifetime of these devices by 66%. 

Read the full story Posted: Nov 20,2024

Researchers gain better understanding of perovskite solar cells

Bifacial perovskite solar cells (Bi-PSCs) have attracted substantial attention due to their potential for enhanced power generation, suitability for integration into building structures and applicability in multijunction PV systems. Recently, researchers from the Indian Institute of Technology Bombay reported the fabrication of efficient Bi-PSCs and investigated their unique properties using various characterization techniques, including Lambertian reflection effects through tilt angle arrangements and bottom albedo illuminations. 

The control device achieved a maximum power conversion efficiency (PCE) of 17.46% under front-side 1 Sun AM1.5G illumination. A significant influence of ground Lambertian reflection was observed with tilt angle variations, resulting in an increase in PCE from 17.46% → 18.82% as the tilt angle reached 20°. Additionally, enhancing the rear-side albedo to 0.5 Sun yielded a maximum PCE of 26% with a bifaciality factor of ∼90% at a tilt angle of 20°. 

Read the full story Posted: Nov 19,2024

Novel approach manages iodine migration to improve stability of inverted single-junction and tandem perovskite solar cells

Chinese Academy of Sciences (CAS) researchers believe that the issue of instability of perovskite solar cells (PSCs) primarily originates from the migration of halide ions—particularly iodide ions (I). Under light exposure and thermal stress, I migrates and transforms into I2, leading to irreversible degradation and performance loss. 

To tackle this challenge, the team introduced the additive 2,1,3-benzothiadiazole,5,6-difluoro-4,7-bis(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl) (BT2F-2B) into the perovskite. The strong coordination between the unhybridized p orbital and lone-pair electrons from I inhibits the deprotonation of MAI/FAI and the subsequent conversion of I to I₂. The highly electronegative fluorine enhances its electrostatic interaction with I. Consequently, the synergistic effect of BT2F-2B effectively suppresses the decomposition of perovskite and the defect density of the iodide vacancies. 

Read the full story Posted: Nov 19,2024

Novel one-step encapsulation approach addresses both optical losses and extrinsic stability issues simultaneously

Researchers at Finland's Aalto University and Tampere University have developed an encapsulation method for perovskite solar cells (PSCs) to address both optical performance losses at the air-cell interface and intrinsic and extrinsic stability challenges. The team's one-step method provides PSCs with shielding from oxygen and moisture-induced degradation as well as in situ patterning for light management. 

In the new method, the entire surface and sides of the solar cells were coated with polydimethylsiloxane (PDMS), and the front-facing surface of the PSC was in situ–patterned using a soft lithography technique. A replica of leek leaf surface structures was created on the PDMS to reduce reflection and increase haze. The scientists explained that leek leaf replicas, previously used as add-on layers for PSC devices, have shown promise due to their optical and self-cleaning properties. 

Read the full story Posted: Nov 18,2024

CityUHK researchers receive NSFC funding to promote high-performance perovskite/organic tandem solar cells

Three research projects by City University of Hong Kong (CityUHK) scholars have been awarded funding under the 2024/25 National Natural Science Foundation of China (NSFC) and the Research Grants Council (RGC) Collaborative Research Scheme (CRS), amounting to over HK$8.8 million (around USD$1,130,000). Additionally, five CityUHK scholars have been awarded funding from the 2024/25 NSFC/RGC Joint Research Scheme (JRS), with total funding exceeding HK$6 million (over USD$770,000). 

Among the CityUHK research projects awarded funding under the Collaborative Research Scheme is  “Theoretically Guided Material Design, Syntheses and Device Engineering for Efficient and Stable Perovskite/Organic Tandem Solar Cells”, led by Professor Zeng Xiaocheng, Head and Chair Professor of the Department of Materials Science and Engineering, which aims to develop high-performance perovskite/organic tandem solar cells with efficiencies exceeding 28%, promoting the development of sustainable clean energy while advocating global carbon neutrality.

Read the full story Posted: Nov 16,2024

New strategy uses perovskites to reduce radiation dosages in X-ray detection technology

Researchers from King Abdullah University of Science and Technology (KAUST) set out to develop X-ray detection technology with reduced radiation dosage without compromising detection efficiency. The team developed a cascade-engineered approach that uses two interconnected single-crystal devices to mitigate dark current and enhance the detection limit. 

Using methylammonium lead bromide (MAPbBr3) perovskite single crystals, the scientists engineered devices that significantly reduced detection thresholds and improved signal-to-noise ratios (SNRs). 

Read the full story Posted: Nov 15,2024

UtmoLight develops 450W perovskite solar module with 16.1% efficiency

It was reported that China-based UtmoLight has developed a 450 W perovskite solar module with a 16.1% efficiency rating. It claims that the panel is currently the largest perovskite PV module available.

The new module reportedly covers an area of 2.8 square meters, uses dual-glass encapsulation and features an open-circuit voltage of 190.7 V, a short-circuit current of 3.19, and a fill factor of 73.7%.

Read the full story Posted: Nov 14,2024

Researchers tweak perovskite precursor solutions to produce useful cations that improve perovskite solar modules

Researchers from Ecole Polytechnique Fédérale de Lausanne (EPFL), North China Electric Power University, Westlake University, Lomonosov Moscow State University and others have described the addition of N,N-dimethylmethyleneiminium chloride ([Dmei]Cl) into perovskite precursor solutions to produce two cations in situ—namely 3-methyl-2,3,4,5-tetrahydro-1,3,5-triazin-1-ium ([MTTZ]+) and dimethylammonium ([DMA]+) cations - that enhanced the photovoltaic
performance and stability of perovskite solar modules.  

A schematic of the roles of [MTTZ]+ and [DMA]+ in the 3D perovskite matrix. Image from: Science

The team explained that the in situ formation of [MTTZ]+ cation increased the formation energy of iodine vacancies and enhanced the migration energy barrier of iodide and cesium ions, which suppressed nonradiative recombination, thermal decomposition, and phase segregation processes. 

Read the full story Posted: Nov 14,2024

Researchers examine homogeneous 2D perovskite passivation layer and achieve positive results

The formation of a homogeneous passivation layer based on phase-pure two-dimensional (2D) perovskites is a challenge for perovskite solar cells, especially when upscaling the devices to modules. Researchers from China's Wuhan University of Technology, Xidian University, University of Electronic Science and Technology of China and Germany's Technical University of Munich have revealed a chain-length-dependent and halide-related phase separation problem of 2D perovskite growing on top of three-dimensional perovskites. 

The scientists have demonstrated that a homogeneous 2D perovskite passivation layer can be formed upon treatment of the perovskite layer with formamidinium bromide in long-chain ( >10) alkylamine ligand salts. 

Read the full story Posted: Nov 14,2024