市場調查報告書
商品編碼
1394223
全球薄膜太陽能電池市場評估:按類型、安裝、最終用戶、地區、機會、預測(2016-2030)Thin Film Photovoltaics Market Assessment, By Type, By Installation, By End-user, By Region, Opportunities and Forecast, 2016-2030F |
全球薄膜太陽能電池市場呈現顯著成長,營收將從2022年的約73.4億美元增至2030年的191億美元,2023年至2030年的複合年增長率為12.7%。預計將實現健康增長。
由於多種因素,市場正在成長。 提高能源轉換效率等技術進步正在增加市場的吸引力。 對永續能源的需求不斷增加以及成本的持續降低和可擴展性將提高競爭力並進一步推動薄膜太陽能電池市場的擴張。
薄膜太陽能電池市場正在呈現顯著成長,因為它在減少二氧化碳排放方面發揮著重要作用。 世界各地對永續能源的興趣日益濃厚,人們越來越重視環境責任和減少溫室氣體排放。 薄膜技術本質上具有較低的碳足跡,使其成為一種可持續的選擇。 它也與具有環保意識的消費者和政府促進再生能源的努力一致。 隨著對清潔替代能源的需求不斷增長,製造商和投資者越來越被薄膜太陽能電池所吸引。 這推動了薄膜太陽能電池市場的擴張,並刺激了研發投資,使該技術更加高效和永續。
例如,2022 年 12 月,麻省理工學院 (MIT) 的工程師開發了一種超薄輕質的織物太陽能電池,可以附著在各種表面上。 這款靈活耐用的太陽能電池每公斤產生的電量是傳統電池板重量的 18 倍,可用於穿戴式裝置和緊急部署等應用。
儲能整合對於推動薄膜太陽能電池市場的成長、提高其適應性和可靠性發揮關鍵作用。 薄膜太陽能電池板與電池等儲能係統的無縫配對,使其成為需要可靠電源的離網和偏遠地區的有吸引力的選擇。 它還擴大了薄膜太陽能電池的潛在應用範圍,並將其市場份額擴大到併網裝置之外。 此外,它還有效解決了太陽能發電的間歇性問題,確保了晝夜不間斷的能源供應。 因此,這種整合方法具有廣泛的消費者和行業吸引力,有助於薄膜太陽能電池市場的更大採用和擴展。
例如,2023 年 5 月,下一代太陽能電池領域的領導者 Oxford PV 利用矽上的鈣鈦礦實現了 28.6% 商業規模太陽能電池效率的新世界紀錄。 這種 "矽基鈣鈦礦" 串聯電池的性能優於主流的純矽電池,代表著邁向低碳全球經濟的重要一步。
碲化鎘是薄膜太陽能電池市場的領導技術。 碲化鎘薄膜太陽能板成本效益高,所需材料較少,且製造流程相對簡單。 它提供了與傳統矽基面板相媲美的令人印象深刻的能量轉換效率。 此外,這些碲化鎘面板在低光源條件下表現出出色的性能,並適應不同的地理條件。 由於其穩健性、可擴展性和大規模生產潛力,碲化鎘已牢牢確立了自己的傑出選擇地位,有效滿足了對經濟、可靠和高效太陽能解決方案的需求。
例如,2023 年 8 月,美國能源部推出碲化鎘加速器聯盟 (CTAC),目標是推動碲化鎘薄膜太陽能電池技術、提高效率並降低製造成本。我們正在支持碲光伏市場的成長。
本報告研究和分析了全球薄膜太陽能電池市場,提供市場規模和預測、市場動態以及主要參與者的現狀和前景。
Global thin film photovoltaics market has experienced significant growth with the revenue of approximately USD 7.34 billion in 2022, forecasted to reach a projected value of USD 19.1 billion by 2030, displaying a robust CAGR of 12.7% from 2023 to 2030.
Thin film photovoltaics possess numerous advantages such as flexibility, lightweight construction, minimal material consumption, cost-effectiveness, adaptability to different surfaces, and reliable performance under low-light conditions. These attributes render them suitable for a wide range of applications, including building-integrated solar panels, portable devices, and remote power generation.
The thin film photovoltaics market experiences growth driven by several factors. Technological enhancements, including increased energy conversion efficiency, boost market appeal. Growing demand for sustainable energy sources and continuous cost reductions and scalability enhance competitiveness, further driving thin film photovoltaics market expansion.
Through groundbreaking research at MIT, thin film photovoltaics have emerged as a cost-effective and versatile solar energy solution. These ultrathin solar cells, one-hundredth the weight of conventional photovoltaics, offer exceptional lightweight characteristics. Their adaptability extends to diverse surfaces, including roofs, boat sails, drone wings, and tents. Innovative solar cell structures and materials enable enhanced performance, particularly in low-light conditions, mitigating traditional solar panel limitations of weight and fragility. This technological advancement significantly advances the thin film photovoltaics market, enhancing accessibility, scalability, and efficiency in solar power generation, thereby addressing critical industry challenges.
For instance, in September 2023, Ascent Solar Technologies, Inc. increased its CIGS solar technology efficiency from 10.8% to 15.2% through enhanced manufacturing processes and eliminating hazardous materials, showing potential for broader thin-film photovoltaics adoption.
The thin film photovoltaics market is experiencing significant growth due to its vital role in reducing carbon emissions. As the global focus shifts toward sustainable energy sources, there's a heightened emphasis on environmental accountability and diminished greenhouse gas output. Thin film technology inherently has a lower carbon footprint, making it a sustainable choice. It aligns with eco-conscious consumers and government initiatives promoting renewable energy. With the escalating demand for cleaner energy alternatives, manufacturers and investors are increasingly attracted to thin film photovoltaics. It propels thin film photovoltaics market expansion and stimulates investments in research and development to enhance the technology's efficiency and sustainability.
For example, in December 2022, MIT engineers developed ultra-thin, lightweight fabric solar cells that can be attached to various surfaces. These flexible, durable solar cells are one-hundredth the weight of traditional panels, generating 18 times more power-per-kilogram, and can be used in wearables, emergency deployments, and more.
The integration of energy storage plays a pivotal role in bolstering the growth of the thin film photovoltaics market, elevating its adaptability and dependability. The seamless pairing of thin film solar panels with energy storage systems, such as batteries, renders them an enticing choice for off-grid and remote areas where a steady power source is imperative. It broadens the scope of potential applications for thin film photovoltaics, extending their market presence beyond grid-tied installations. Furthermore, it effectively addresses the intermittent issues associated with solar power generation, assuring continuous energy supply throughout day and night. Consequently, this integrated approach garners broader consumer and industry appeal, fostering increased adoption and thin film photovoltaics market expansion.
For example, in May 2023, Oxford PV, a leader in next-gen solar cells, achieved a new world record for commercial-sized solar cell efficiency at 28.6%, using perovskite atop silicon. This 'perovskite-on-silicon' tandem cell surpasses mainstream silicon-only cells, signifying a significant step toward a low-carbon global economy.
Cadmium telluride is a leading technology in the thin film photovoltaics market. Cadmium telluride thin film solar panels excel in cost-efficiency, demanding fewer materials and presenting a relatively straightforward manufacturing process. They deliver impressive energy conversion efficiency, comparable to traditional silicon-based panels. Additionally, these Cadmium telluride panels exhibit exceptional performance in low-light conditions, making them adaptable to diverse geographic locations. Their robustness, scalability, and potential for large-scale production have firmly established cadmium telluride as a prominent choice, effectively meeting the demand for economical, dependable, and high-efficiency solar power solutions.
For instance, in August 2023, The U.S. Department of Energy introduced the Cadmium Telluride Accelerator Consortium (CTAC) with the goal of progressing cadmium telluride thin-film solar cell technology to attain increased efficiency and reduced manufacturing expenses, thereby supporting the growth of the U.S. cadmium telluride PV market.
Asia-Pacific has a prominent position in the thin film photovoltaics market, primarily due to its substantial manufacturing infrastructure, notably in countries such as China and Japan, renowned for their leadership in thin film technology production. These nations leverage cost-effective production capabilities, thereby contributing to the affordability of thin film panels. Additionally, several areas within the Asia-Pacific enjoy high solar irradiance levels, rendering them optimally for solar installations. Government incentives, burgeoning energy demand, and heightened emphasis on sustainability serve to incentivize the adoption of thin film photovoltaics further, thus solidifying the region's dominance in this market.
For instance, in March 2023, Sharp Energy Solutions Corporation (SESJ) and Sustech Inc. are collaborating to develop a non-FIT power generation business, focusing on Power Purchase Agreements (PPA) in Asia and Japan, addressing the need for non-FIT power sources.
The funding initiative by the U.S. Department of Energy's (DOE) Solar Energy Technologies Office (SETO) is pivotal in advancing the thin film photovoltaics market. With an allocated budget of up to USD 36 million in June 2023, this initiative is specifically tailored to stimulate research, development, and demonstration projects in two significant thin-film PV technologies: industrial perovskite PV and cadmium telluride PV. By extending financial support to for-profit lead applicants, the government actively encourages innovation and investment in these technologies. It expedites the commercialization of thin film PV and propels enhancements in efficiency, reliability, manufacturability, and economic viability, heightening the competitiveness in thin film photovoltaics market and contributing to the expansion of the renewable energy market.
The onset of COVID-19 pandemic initially disrupted the global energy landscape, causing economic difficulties and diminished investments in renewable energy, including the thin film photovoltaics market. Nevertheless, due to lockdowns and reduced industrial activities, an unforeseen positive consequence emerged in a substantial reduction in air pollution, particularly in countries like Italy, France, and India. This cleaner air environment subsequently bolstered the efficacy of solar energy generation, thereby accelerating the adoption of thin film photovoltaics. Consequently, these technologies have assumed a critical role in the worldwide shift towards sustainable energy sources, underscoring their resilience and significance in addressing environmental pollution and reducing dependence on fossil fuels in a post-pandemic era.
Progress in manufacturing processes and materials is expected to reduce the production costs of thin film solar panels, rendering them a cost-efficient choice for a broader spectrum of applications.
As developing nations contend with increasing energy demands, the adoption of thin film photovoltaics is expected to rise as an affordable and sustainable solution for power generation.
Advancements in wireless power transfer using photovoltaic cells could open the door to fresh applications in energy distribution and galvanically isolated power supplies.
Thin film photovoltaics could become a standard feature in a variety of products, ranging from smart clothing to consumer electronics, further propelling the market growth.
The global thin film photovoltaics market is characterized by vigorous activity and fierce competition, spearheaded primarily by industry giants such as Panasonic Corporation, First Solar, Inc., SunPower Corporation, Ascent Solar Technologies, Inc., and JA Solar Technology Co., Ltd. These prominent players lead the way in continuous technological innovation, propelling the market expansion. An unwavering pursuit of heightened efficiency, cost-efficiency, and sustainability defines the landscape. With the global shift towards renewable energy gathering momentum, the market's prospects appear optimistic, with a strong focus on broadening applications, reducing costs, and integrating thin film photovoltaics across diverse sectors, including construction, transportation, and consumer electronics.
In May 2023, First Solar bolstered its position in thin film photovoltaics by acquiring Evolar AB, a European perovskite technology leader, in a deal valued at up to USD 80 million. This purchase is set to expedite next-gen PV technology, including high-efficiency tandem devices, by integrating Evolar's expertise with First Solar's research and development efforts, IP portfolio, and thin film PV experience, furthering their commitment to eco-friendly solar energy.
In April 2023, Ascent Solar Technologies, Inc. acquired the manufacturing assets of Flisom AG, thereby expanding its production capacity by 300%, establishing a global presence. The move is aligned with increasing emphasis on solar energy in Europe and Asia, which contributed to the company's revenue stream and international footprint.
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.