PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1273618
PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1273618
According to Stratistics MRC, the Global Perovskite Solar Cell Market is accounted for $0.8 billion in 2022 and is expected to reach $4.6 billion by 2028 growing at a CAGR of 33.8% during the forecast period. One of the newest types of photovoltaic cells that are flexible and lightweight is perovskite solar cells. The light-harvesting active layer of a perovskite solar cell is made up of a perovskite-structured compound, tin halide-based substance, and hybrid organic-inorganic lead. Due to ongoing advancements in solar energy, perovskite solar cells have a high efficiency in devices utilising them and have seen major improvements in recent years.
According to information provided by the International Renewable Power Association, the African Union Council (AUC) and IRENA inked an agreement in April 2020 for the development of solar panels farms or other renewable technology incorporating decentralized systems.
The newest solar material, perovskite, has a crystal structure that is good for absorbing solar energy. Additionally, perovskite cells outperform silicon in lower lighting levels, on overcast days, or indoors, allowing for higher conversion efficiencies. The fundamental advantage of using perovskite to create solar cells is that it is an affordable, plentiful material that can generate inexpensive solar electricity. Organisations in the solar cell business are attempting to create and commercialise perovskite solar cells because they have advantages over conventional cells. Companies engaged in the development of perovskite solar cells are soliciting money for study and invention. Perovskite solar cell research and development are receiving ongoing investment, which is presenting market participants with expansion prospects.
When perovskites react with oxygen and moisture or are exposed for a lengthy period of time to light, heat, or electrical current, they can degrade. The perovskite research and development, or R&D, community is working on a variety of ways to comprehend and better stabilise and degrade, with a strong emphasis on increasing operational lifespan. The goal of the research is to make perovskite surfaces less reactive while also identifying substitute materials for perovskite material compositions.
Compared to conventional solar cells, perovskite solar cells offer competitive power conversion efficiencies (PCE) and the potential for greater performance. Regardless of whether the sunlight is natural or manufactured, perovskite solar cells can still convert it into energy. Perovskite solar cells have several advantages over conventional solar cells, including being far more affordable to manufacture and thinner. Perovskite solar cells have superior spectrum absorption and enable greater efficiency in low and erratic lighting.
High production costs are expected to restrict growth. Changes in raw material costs are also projected to be an obstacle to the perovskite solar energy industry throughout the projection period. This report on the perovskite solar panel industry provides information on the most recent trends, import restrictions, import and export analysis, company structure, value chain enhancement, customer base, the impact of household and local market participants, analysis of possibilities in relation to changing income sections, modifications in the restrictions, significant market expansion analysis, market shares, classification of market overgrowth, implementation of niche markets, and supremacy of the domestic market.
Almost every industry, including electronics, semiconductors, manufacturing, automobiles, etc., was significantly impacted by COVID-19. However, due to substantial shifts in customer demand for technical services, a number of technology-related businesses have witnessed a growth in revenue. Additionally, both rich and developing nations have seen substantial technological advancements as a result of the epidemic.
The mesoporous perovskite solar cells segment is estimated to have a lucrative growth. Mesoporous perovskite solar cells are also becoming more popular because they provide more stability and efficiency compared to their equivalents made of other materials. Higher light absorption and better charge transfer are made possible by the mesoporous structure, which increases conversion efficiency. Additionally, efforts are being made in research and development to increase the stability and efficiency of mesoporous perovskite solar cells. With technological developments, the mesoporous market is anticipated to expand significantly in the years to come.
The Building Integrated Photovoltaics (BIPV) segment is anticipated to witness the fastest CAGR growth during the forecast period. Building-integrated photovoltaic materials (BIPV) replace traditional building materials with photovoltaic ones in building envelopes including roofs, skylights and facades, increasing demand for BPIV and hence driving market development.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the region's rising urbanisation, the need for renewable energy sources to minimise reliance on fossil fuels, and growing government backing. Additionally, the region's market is growing due to the region's well-developed consumer electronics industry.
North America is projected to have the highest CAGR over the forecast period, owing to rising solar energy output and rising expenditures in R&D initiatives related to the creation of improved perovskite cells. Participants in the North American market are looking for methods to further reduce the costs of these solar panels by streamlining production.
Some of the key players profiled in the Perovskite Solar Cell Market include: Fujikura, Kyocera, BASF, Panasonic, Merck, LG Chem, Toshiba, FrontMaterials Co. Ltd., Polyera Corporation and Greatcell Energy.
In August 2019, Oxford PV, a perovskite-focused company based in the UK, purchased the first piece of solar cell production machinery from Meyer Burger, a Swiss technology company. By the end of 2020, Oxford PV intends to acquire a 250 MW perovskite special assembly facility.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.