市場調查報告書
商品編碼
1419604
全球奈米複合太陽能電池市場評估:按類型、材料類型、應用、地區、機會、預測(2017-2031)Nanocomposite Solar Cells Market Assessment, By Type, By Material Type, By Application, By Region, Opportunities and Forecast, 2017-2031F |
全球奈米複合材料太陽能電池市場規模將從2023年的40.5億美元增至2031年的87.4億美元,預計2024-2031年期間複合年增長率為10.1%。 奈米複合太陽能電池比傳統太陽能電池更具成本效益、提高了效率並且更靈活。 結合奈米材料的獨特組合物能夠增強電子遷移率和光吸收。 整體市場的成長是由重大技術進步、對永續解決方案不斷增長的需求以及政府為推廣再生能源所採取的各種舉措所推動的。 此外,可擴展性和整合到各種表面的未來前景有助於市場成長,從而推動太陽能領域的創新。
自鈣鈦礦技術推出以來,市場不斷擴大。 鈣鈦礦技術是一種用於奈米複合太陽能電池的複合材料,可以比傳統矽太陽能電池產生更多的能量。 此外,這些是第四代太陽能電池,完全滿足能源要求,並具有環境相容性和低成本製造等獨特性能。
例如,2023 年 7 月,印度孟買理工學院 (IITB) 國家光伏研究與教育中心 (NCPRE) 開發出鈣鈦礦太陽能電池 (PSC)。 這款太陽能電池結合了半透明鈣鈦礦太陽能電池和矽基太陽能電池。
越來越多的 BIPV 採用正在刺激市場擴張。 將 BIPV 整合到結構中可以提高奈米複合太陽能電池的整體效率。 這些太陽能電池非常適合永續建築不斷變化的需求,使其成為消費者的理想選擇。
例如,2023年9月,日本電子製造商松下宣布推出首款整合鈣鈦礦太陽能電池和玻璃窗的光伏建築一體化(BIPV)玻璃產品。 此外,對於獨立太陽能專案可用面積有限或城市屋頂空間有限的國家,新的 BIPV 技術的開發特別令人感興趣。 此外,松下正以其專有的 BIPV 技術進入這一新領域,該技術整合了鈣鈦礦太陽能電池和玻璃。
越來越多地使用碲化鎘 (CdTe) 正在加速奈米複合材料太陽能電池市場的成長。 此外,與矽基太陽能電池相比,CdTe太陽能電池具有無數優勢,包括更低的製造成本、更高的能量轉換效率以及在低光源條件下更好的性能。 對再生能源的需求不斷增加,以及為提高 CdTe 薄膜太陽能電池效率而對研發活動的持續投資也推動了市場的成長。
例如,2023年3月,美國能源部宣布碲化鎘(CdTe)基電池具有比矽技術更優越的溫度係數、能量產率和降解率,並且商用薄膜太陽能他說他是電池技術的領導者。 CdTe基組件已在全球安裝超過30GWp(峰值),多家公司參與生產,組件效率高達18.6%,實驗室電池效率超過22%。
奈米技術的出現為奈米複合太陽能電池市場創造了無數機會。 對高效和永續能源解決方案的需求不斷增長以及將智慧技術整合到太陽能電池板中是市場成長的驅動因素。 再生能源的採用以及研究資金和私人投資的可用性對於推進技術並使其更接近商業化至關重要。 儘管市場主要處於研發階段,但預計未來將大幅繁榮。
本報告研究分析了全球奈米複合太陽能電池市場,提供市場規模和預測、市場動態、主要參與者現狀和前景等。
Nanocomposite solar cells market is projected to witness a CAGR of 10.1% during the forecast period 2024-2031, growing from USD 4.05 billion in 2023 to USD 8.74 billion in 2031. Nanocomposite solar cells offer cost-effectiveness, enhanced efficacy, and much flexibility compared to traditional solar cells. Their unique composition incorporating nanomaterials enable improvised electron mobility and light absorption. Factors augmenting the overall market growth include significant technological advancements, a rise in demand for sustainable solutions, and various initiatives introduced by governments to promote renewable energy. Moreover, the scalability and potential for integration into various surfaces contribute to the market's growth, thereby fostering innovation in the field of solar energy.
The market has continuously been amplified since the advent of perovskite technology. Perovskite technology is a composite material used in nanocomposite solar cells that can produce more energy as compared to conventional silicon cells. Moreover, these are the fourth-generation solar cells that adequately meet the energy requirements and can be harvested with unique natures like eco-compatibility and low-cost fabrication.
For instance, in July 2023, the National Centre for Photovoltaic Research and Education (NCPRE) at the Indian Institute of Technology Bombay (IITB) developed a perovskite solar cell (PSC) that has demonstrated an efficiency of over 26%, which is most likely the highest worldwide. The cell is a semi-transparent perovskite solar cell combined with a silicon-based solar cell.
The rise in the adoption of BIPV is fueling the market expansion. BIPV's integration into the structure enhances the overall efficacy of nanocomposite solar cells. These cells adequately align with the evolving needs of sustainable construction, thereby becoming an idle choice for consumers.
For example, in September 2023, Japanese electronics manufacturer Panasonic unveiled its own building integrated photovoltaics (BIPV) glass product, which is the first to integrate perovskite solar cells with glass windows. Moreover, the development of new BIPV technologies is of particular interest in countries with limited geography for standalone solar projects or with limited roof space in urban areas. Moreover, Panasonic is entering this new sector with its own BIPV technology which integrates perovskite photovoltaics with glass.
The rise in usage of Cadmium Telluride (CdTe) is accelerating the growth of the nanocomposite solar cell market, as CdTe-based cells have emerged as the leading commercialized thin film photovoltaic technology. Moreover, CdTe solar cells offer myriad advantages over silicon-based cells, such as lower manufacturing costs, higher energy conversion efficiency, and better performance under low-light conditions. The increasing demand for renewable energy sources and continuous investments in R&D activities for enhancing the efficiency of CdTe thin film solar cells are also expediting the market growth.
For example, in March 2023, the United States Department of Energy stated that Cadmium Telluride (CdTe)-based cells are the leading commercialized thin film photovoltaic technology, with better temperature coefficients, energy yield, and degradation rates than Si technologies. More than 30 GW peak (GWp) of CdTe-based modules are installed worldwide, with multiple companies in production, modules shipping at up to 18.6% efficiency, and lab cell efficiency above 22%.
The emergence of nanotechnology is creating numerous opportunities for the nanocomposite solar cell market. The increasing demand for efficient and sustainable energy solutions, coupled with the integration of smart technology in solar panels, is driving market growth. The adoption of renewable energy sources and the availability of research funding and private investments are crucial for advancing the technology and bringing it closer to commercialization. The market is primarily in the research and development phase, but it is anticipated to prosper exponentially in the future.
For example, in March 2023, Phys.org, delineated that Materials as tiny as 1.2. nm can function in solar cells which have the capability to harvest the sun's energy. Carbon nanotubes, which are tiny tubules made of carbon atoms, serve as templates for the inorganic halide compounds. The identification of these minuscule nanowires may lead to novel features and uses for this kind of renewable energy.
The Asia-Pacific region emerged as the market's most dominant region for several reasons. Robust economic growth, continuous rise in energy demand, and a sheer commitment to sustainable development have amplified the region's focus on renewable energies. Moreover, government incentives, coupled with the rise in investment in R&D activities, are further amplifying the market growth of the region.
In August 2023, South Korean researchers created an innovative building-integrated photovoltaic (BIPV) solar cell that utilizes a distributed bragg reflector (DBR) electrode to improve light scattering and meet aesthetic standards. The DBR electrode consists of alternating dielectric layers, acting as reflectors and dielectric mirrors, with a multilayered composition alternating between high and low refractive indices, allowing for customizable reflection spectra.
Government initiatives are crucial for driving the adoption of nanocomposite solar cells and other renewable energy technologies. Subsidies, tax incentives, and feed-in tariffs encourage consumers and businesses to invest in solar energy. Moreover, in the current market scenario, the government is sheerly focusing on increasing its investments in the solar sector to support technological advancements of nanocomposite solar cells.
For instance, in March 2023, the Government of India (GoI), under its Production Linked Incentive Scheme for high-efficiency solar PV modules (Tranche-II), decided to allocate a total capacity of 39,600 MW of domestic solar PV module manufacturing capacity to 11 companies, with a total outlay of approximately USD 1.67 billion. Moreover, it is expected that a manufacturing capacity of 7,400 MW will become operational by October 2024, 16,800 MW capacity by April 2025, and a balance of 15,400 MW capacity by April 2026. The Tranche-II is anticipated to bring in an investment of nearly USD 11.16 billion.
Major companies are investing heavily in BIPV applications, driving rapid advancements in the nanocomposite solar cell industry. This trend is evident in the development of hybrid solar power inverters, which combine efficiency with innovation to meet the evolving demands of homeowners globally. The nanocomposite solar cell market is primarily in the research and development phase, but it holds immense promise due to its potential to significantly increase the efficiency of solar energy conversion. The increasing demand for efficient and sustainable energy solutions, coupled with the integration of smart technology in solar panels, is driving market growth.
In August 2023, UbiQD, a nanotechnology company based in New Mexico, entered a joint development agreement with First Solar. The purpose of the collaboration was to incorporate fluorescent quantum dot technology in advanced solar modules while exploring its additional benefits. Quantum dots (QD) are photoluminescent particles that are so small that it would take 100,000 of them to span one fingernail.
All segments will be provided for all regions and countries covered:
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.