Perovskite applications

Researchers develop method to regulate the hole transport layer for efficient perovskite solar cells

Researchers at CAS (Chinese Academy of Sciences) and Henan University have developed a nanomaterial-regulated doping strategy to pre-oxidize spiro-OMeTAD into radicals in the precursor solution with tin sulfoxide (SnSO) nanomaterials prepared at high temperature. The team increased the photoelectric conversion efficiency (PCE) of perovskite solar cells (PSCs) to 24.5% using the inorganic SnSO as a dopant to oxidize and regulate the organic hole transport layer 2,2′,7,7′-tetrakis[N,N-di(4-methoxyphenyl)amino]-9,9-spirobifluorene (spiro-OMeTAD).

Spiro-OMeTAD is an important hole transport layer (HTL) material. To enhance the charge transport capability of spiro-OMeTAD, lithium trifluoromethanesulfonyl imide (Li-TFSI) is required to mediate the reaction between oxygen and spiro-OMeTAD. However, this traditional doping method has low doping efficiency, and excessive Li-TFSI will remain in the spiro-OMeTAD film, leading to a decrease in the compactness and long-term conductivity of the film. The duration of the oxidation reaction usually takes 10 to 24 hours to reach the desired conductivity and work function. In this study, the researchers developed a fast and reproducible strategy to control the oxidation of the nanomaterial. They used SnSO nanomaterial to pre-oxidize spiro-OMeTAD to spiro-OMeTAD+TFSI- free radicals in precursor solutions. This improved the conductivity, optimized the energy level position of HTL, and achieved a high PCE of 24.5%.

Read the full story Posted: Mar 18,2024

Researchers use BCP to boost the performance of perovskite solar cells

In a recent study by researchers from Henan University and the Chinese Academy of Sciences (CAS), the interface of indium tin oxide/electron transport layer (ITO/ETL) in n-i-p structured devices was targeted. Electron transport layers are typically fabricated using commercial nano tin dioxide, which often displays insufficient density. To combat this, the scientists employed the commonly used bathocuproine (BCP) material to treat the ITO/ETL interface. 

The incorporation of BCP diminishes the direct contact between the perovskite and ITO layers, while also passivating buried interface and adjusting the crystal orientation of perovskites. Furthermore, the substrate layer exhibits improved transparency, consequently elevating the utilization rate of light by perovskite.

Read the full story Posted: Mar 17,2024

Researchers develop method for enhancing the performance of blue perovskite LEDs

Researchers at the University of Cambridge, University of Science and Technology of China, Shanghai Jiao Tong University, Soochow University, OIST, Hong Kong University of Science and Technology, Victoria University of Wellington and Kyushu University have demonstrated efficient blue perovskite LEDs based on a mixed two-dimensional–three-dimensional perovskite and a multifunctional ionic additive that enables control over the reduced-dimensional phases, non-radiative recombination channels and spectral stability. 

The team reported a series of devices that emit efficient electroluminescence from mixed bromide/chloride quasi-three-dimensional regions, with external quantum efficiencies of up to 21.4% (at a luminance of 22 cd m–2 and emission peak at 483 nm), 13.2% (at a luminance of 2.0 cd m–2 and emission peak at 474 nm) and 7.3% (at a luminance of 6 cd m–2 and emission peak at 464 nm). The devices showed a nearly 30-fold increase in operational stability compared with control LEDs, with a half-lifetime of 129 min at an initial luminance of 100 cd m–2

Read the full story Posted: Mar 17,2024

Macnica develops a new air quality sensor that uses perovskite solar cells and semi-solid batteries

Macnica, a Technology Solutions Partner that provides products, services, and solutions, has announced a new type of air quality sensor that uses perovskite solar cells and semi-solid batteries. The sensor uses perovskite solar cells from EneCoat Technologies, a startup from Kyoto University.

It was reported that for several years, an indoor perovskite solar cell effectiveness demonstration project has been taking place in the company's office in Tokyo. Through this demonstration project, it was reportedly demonstrated that the technology can become a sustainable energy source in the future, including use under low illumination, and data on various issues was gathered toward the practical application of perovskite solar cells.

Read the full story Posted: Mar 14,2024

Researchers examine prospects of vapor-based deposition to short track perovskite PV's road to commercialization

A large international group of researchers worked together to form a balanced viewpoint on the prospects of vapor-based processing of perovskite PV on an industrial scale. 

Their perspective highlights the conceptual advantages of vapor phase deposition, discusses the most crucial process parameters in a technology assessment, contains an overview about relevant global industry clusters, and provides an outlook on the commercialization perspectives of the perovskite technology in general.

Read the full story Posted: Mar 10,2024

Japan to promote perovskite solar technology through feed-in tariffs

According to reports, Japan's government plans to advance perovskite  flexible solar power panels through the country's feed-in tariff system, seeking to encourage investment in the technology. The Ministry of Economy, Trade and Industry plans to set the price of energy produced from perovskite cells at 10 yen (6 cents) per kilowatt-hour or more, higher than the current level for solar power, starting as early as fiscal 2025.

Light, flexible perovskite cells can generate electricity in places where traditional solar panel installation is not feasible, such as building walls and windows. The base technology is Japanese, and Japanese companies are involved in vigorous R&D with emphasis on quality and durability. At the same time, Chinese companies have begun mass production and are leading in commercialization.

Read the full story Posted: Mar 08,2024

Researchers develop method for re-manufacturing perovskite solar cells and modules

An international group o researchers, including ones from the Fraunhofer Institute for Solar Energy Systems ISE, Solaronix, University of Cambridge, École Polytechnique Fédérale de Lausanne (EPFL) and others, have developed a method to re-manufacture fully encapsulated perovskite solar cells after recycling. According to the researchers, the re-manufactured devices can achieve 88% of their original efficiency.

The novel method for re-manufacturing perovskite solar cells (PSCs) uses carbon-based electrodes (CPSMs). Re- manufacturing, as opposed to merely recycling, is described as the combination of re-used, recycled, repaired, or replaced parts to make a new product. “In this work, we demonstrate for the first time a re-manufacturing strategy for glass-glass encapsulated perovskite solar cells,” the scientists stated. “Our study presents a facile experimental method to remove the edge-sealant, encapsulant, back electrode, and degraded perovskite, allowing reuse of the device constituents.”

Read the full story Posted: Mar 06,2024

Researchers develop record efficiency triple-junction solar cells using cyanate

Researchers at the National University of Singapore (NUS), Beijing University of Technology, Suzhou Maxwell Technologies and Technical University of Munich have developed a triple-junction perovskite/Si tandem solar cell that can reportedly achieve a certified world-record power conversion efficiency of 27.1% across a solar energy absorption area of 1 sq cm, representing the best-performing triple-junction perovskite/Si tandem solar cell thus far. To achieve this, the team engineered a new cyanate-integrated perovskite solar cell that is stable and energy efficient.

Current multi-junction solar cell technologies pose many issues, such as energy loss which leads to low voltage and instability of the device during operation. To overcome these challenges, Assistant Professor at NUS, Hou Yi, led a team of scientists to demonstrate, for the first time, the successful integration of cyanate into a perovskite solar cell to develop a novel triple-junction perovskite/Si tandem solar cell that surpasses the performance of other similar multi-junction solar cells. 

Read the full story Posted: Mar 05,2024

Researchers use thin perovskite layers to improve stability and efficiency of perovskite solar cells

King Abdullah University of Science and Technology (KAUST) scientists, along with collaborators from Ulsan National Institute of Science and Technology (UNIST) and Chinese Academy of Sciences (CAS), have reported a new strategy to design perovskite solar cells (PSCs) that improves their stability and raises their efficiency.

Image credit: KAUST

Defects at the top and bottom interfaces of three-dimensional (3D) perovskite photo-absorbers diminish the performance and operational stability of PSCs due to charge recombination, ion migration, and electric-field inhomogeneities. In this recent work, the team demonstrated that long alkyl-amine ligands can generate near-phase pure two-dimensional (2D) perovskites at the top and bottom 3D perovskite interfaces and effectively resolves these issues.

Read the full story Posted: Mar 05,2024