鈣鈦礦太陽能電池市場：現況分析與預測（2023-2030）

Perovskite Solar Cells Market: Current Analysis and Forecast (2023-2030)

出版日期: 2024年03月01日 | 出版商:

UnivDatos Market Insights Pvt Ltd | 英文 138 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

由於對氣候變遷和能源安全的擔憂日益加劇，對太陽能等再生能源的需求預計將迅速增長，鈣鈦礦太陽能電池市場預計在預測期內將以 48.56% 的強勁複合年增長率增長。鈣鈦礦太陽能電池是傳統矽太陽能電池的有前途的替代品，具有高效率和低成本。此外，隨著技術的成熟和規模經濟的實現，鈣鈦礦太陽能電池的製造成本預計在未來幾年將大幅下降。這使得鈣鈦礦太陽能電池與傳統矽太陽能電池相比更具競爭力。

根據結構，市場分為平面鈣鈦礦太陽能電池和介孔鈣鈦礦太陽能電池。其中，平面型鈣鈦礦太陽能電池市場佔壓倒性比重。平面太陽能電池的製造比介孔太陽能電池更具成本效益，因為它們需要更少的層數並且具有更簡單的製程。此外，最近的突破顯著提高了平面太陽能電池的功率轉換效率，使其與其他太陽能電池技術相比更具競爭力。

依產品劃分，市場分為剛性鈣鈦礦太陽能電池和柔性鈣鈦礦太陽能電池。其中，柔性鈣鈦礦太陽能電池重量輕且可彎曲，這就是為什麼鈣鈦礦太陽能電池市場大幅成長的原因。這些特性使它們適用於傳統剛性太陽能板不理想的各種應用。此外，它可以無縫整合到建築物外牆和屋頂中，並可以舒適地整合到服裝和其他穿戴式裝置中。

依製造方法，市場分為溶液製造法、氣相沉積製造法和蒸氣輔助溶液製造法。其中，氣相沉積領域在鈣鈦礦太陽能電池市場中佔有很大佔有率。這是因為氣相沉積鈣鈦礦薄膜已被證明比透過旋塗或噴墨印刷等其他溶液方法生產的薄膜具有更高的效率。這是由於氣相沉積製程所生產的鈣鈦礦材料的結晶度和形態得到了改善。此外，與其他溶液方法產生的鈣鈦礦薄膜相比，氣相沉積方法可以產生更穩定的鈣鈦礦薄膜，可以承受更惡劣的環境條件。

依應用劃分，市場分為智慧玻璃、太陽能板、鈣鈦礦串聯太陽能電池、行動裝置、公用事業和BIPV（光伏建築整合）。特別是太陽能電池板領域的鈣鈦礦太陽能電池市場正在經歷顯著成長。這是因為太陽能電池板是鈣鈦礦太陽能電池最成熟的應用，研發正在朝著商業化方向進展。此外，還有提高效率的潛力：鈣鈦礦太陽能電池有潛力實現比傳統矽太陽能電池更高的效率，進而提高單位面積的發電量。

根據最終用途，市場分為製造、能源、工業自動化、航空航太和消費性電子產品。其中，能源領域是鈣鈦礦太陽能電池市場的主要參與者，因為鈣鈦礦太陽能電池比傳統矽基太陽能電池具有多種優勢，包括更低的製造成本、更高的效率和更靈活的設計選擇，成長顯著。此外，鈣鈦礦太陽能電池的碳足跡比傳統矽基太陽能電池低得多，因為它們的製造成本更低且需要的材料更少。

為了更瞭解市場介紹，市場分為北美（美國、加拿大等北美地區）、歐洲（德國、英國、荷蘭、法國、義大利、西班牙等歐洲地區）、亞太（中國）、日本、印度、亞太地區其他地區）和世界其他地區國家根據其全球影響力進行分析。亞太地區在鈣鈦礦太陽能電池市場佔據主導地位，因為該地區的快速城市化和經濟成長促使能源需求增加。此外，對氣候變遷和能源安全的擔憂是太陽能等再生能源的強大推動力。中國、日本、韓國等國家都實施了支持政策和鼓勵再生能源技術開發和應用的政策。這些政策通常包括對鈣鈦礦太陽能電池的研究、開發和商業化的財政激勵和補貼。此外，該地區還擁有完善的各種電子設備（包括太陽能電池板）的製造基礎設施。一旦鈣鈦礦太陽能電池技術達到商業成熟度，現有的基礎設施就可以輕鬆適應生產。最後，擁有試點製造設施的微廣半導體（中國）等主要市場參與者的存在進一步加強了亞太地區的主導地位。

市場上營運的主要公司包括Dyenamo AB、Energy Materials Corp、Fraunhofer ISE、Panasonic Holdings Corporation、Frontier Energy Solution、FrontMaterials Co.Ltd.、Fujifilm Wako Pure Chemical Industries, Ltd., Toshiba Corporation、G24 Power Ltd.、Tandem PV, Inc.等

Perovskite solar cells are a type of photovoltaic material that has shown great potential as an alternative to traditional silicon-based solar cells. These solar cells are named after the mineral perovskite, which is a calcium titanium oxide. They are relatively lightweight, flexible, and cheap to produce, making them ideal for use in a variety of applications, such as rooftops or buildings. Nowadays, Consumers are increasingly using their smartphones and tablets to access various applications and content on the go. This trend has created a significant opportunity for the automotive industry to integrate these devices into vehicles to provide seamless connectivity and entertainment options.

The Perovskite Solar Cells Market is expected to grow at a strong CAGR of 48.56 % during the forecast period owing to increasing concerns about climate change and energy security, the demand for renewable energy sources like solar power is increasing rapidly. Perovskite solar cells offer a promising alternative to traditional silicon solar cells, with the potential for higher efficiency and lower costs. Additionally, the cost of manufacturing perovskite solar cells is expected to decline significantly in the coming years, as the technology matures and economies of scale are achieved. This will make perovskite solar cells more competitive with traditional silicon solar cells.

Based on structure, the market is segmented into planar perovskite solar cells and mesoporous perovskite solar cells. Amongst these, the segment with the dominating share in the perovskite solar cell market is planar perovskite solar cells because of simpler device design and fabrication techniques. Planar cells require fewer layers and simpler processes compared to mesoporous cells, making them more cost-effective to manufacture. Additionally, recent breakthroughs have significantly improved the power conversion efficiency of planar cells, making them more competitive with other solar cell technologies.

Based on product, the market is segmented into rigid perovskite solar cells and flexible perovskite solar cells. Amongst these, the flexible perovskite solar cells segment has significant growth in the perovskite solar cell market because they are lightweight and bendable. These properties make them suitable for various applications where traditional rigid solar panels are not ideal. Additionally, they can be seamlessly integrated into building facades or roofs and can be comfortably incorporated into clothing or other wearable devices.

Based on method, the market is segmented into solution method, vapor-deposition method, and vapor-assisted solution method. Amongst these, the vapor-deposition method segment has significant share in the perovskite solar cell market because vapor-deposited perovskite films have been shown to have higher efficiency rates than those produced by other solution methods such as spin coating or inkjet printing. This is due to the improved crystallinity and morphology of the perovskite material produced by the vapor-deposition process. Additionally, the vapor-deposition method also results in more stable perovskite films that can withstand harsh environmental conditions better than those made using other solution methods.

Based on application, the market is segmented into smart glass, solar panel, perovskite in tandem solar cells, portable devices, utilities, and BIPV (building-integrated photovoltaics). Amongst these, the solar panel segment has significant growth in the perovskite solar cell market because solar panels are the most mature application for perovskite solar cells, with ongoing research and development efforts towards commercialization. Additionally, potential for higher efficiency: Perovskite solar cells have the potential to achieve higher efficiencies compared to traditional silicon solar cells, leading to increased power generation per unit area.

Based on end use, the market is segmented into manufacturing, energy, industrial automation, aerospace, and consumer electronics. Amongst these, the energy segment has a significant growth in the perovskite solar cell market because it offers several advantages over traditional silicon-based solar cells, including lower manufacturing costs, higher efficiency rates, and flexible design options. Additionally, Perovskite solar cells have a significantly lower carbon footprint than traditional silicon-based solar cells due to their lower manufacturing costs and reduced material requirements.

For a better understanding of the market adoption, the market is analyzed based on its worldwide presence in countries such as North America (U.S., Canada, and the Rest of North America), Europe (Germany, UK, Netherlands, France, Italy, Spain, Rest of Europe), Asia-Pacific (China, Japan, India and Rest of Asia-Pacific), Rest of World. Asia-Pacific region's dominance in the perovskite solar cell market due to rapid urbanization and growing economies in the region lead to increasing energy demand. Additionally, concerns about climate change and energy security drive a strong push towards renewable energy sources like solar power. Countries like China, Japan, and South Korea have implemented supportive policies and regulations encouraging the development and deployment of renewable energy technologies. These policies often include financial incentives and subsidies for research, development, and commercialization of perovskite solar cells. Furthermore, the region boasts a well-established manufacturing infrastructure for various electronics, including solar panels. This existing infrastructure can be readily adapted to produce perovskite solar cells once the technology matures commercially. Finally, The presence of major market players in the region, like Microquanta Semiconductor (China) with its pilot manufacturing facility, further strengthens the Asia-Pacific dominance.

Some major players operating in the market include Dyenamo AB, Energy Materials Corp, Fraunhofer ISE, Panasonic Holdings Corporation, Frontier Energy Solution, FrontMaterials Co. Ltd., FUJIFILM Wako Pure Chemical Corporation, Toshiba Corporation, G24 Power Ltd, and Tandem PV, Inc.

1.MARKET INTRODUCTION

1.1.Market Definitions
1.2.Main Objective
1.3.Stakeholders
1.4.Limitation

2.RESEARCH METHODOLOGY OR ASSUMPTION

2.1.Research Process of the Perovskite Solar Cells Market
2.2.Research Methodology of the Perovskite Solar Cells Market
2.3.Respondent Profile

3.MARKET SYNOPSIS

4.EXECUTIVE SUMMARY

5.GLOBAL PEROVSKITE SOLAR CELLS MARKET COVID-19 IMPACT

6.GLOBAL PEROVSKITE SOLAR CELLS MARKET REVENUE, 2020-2030F

7.MARKET INSIGHTS BY STRUCTURE

7.1.Planar Perovskite Solar Cells
7.2.Mesoporous Perovskite Solar Cells

8.MARKET INSIGHTS BY PRODUCT

8.1.Rigid Perovskite Solar Cells
8.2.Flexible Perovskite Solar Cells

9.MARKET INSIGHTS BY METHOD

9.1.Solution Method
9.2.Vapor-Deposition Method
9.3.Vapor-Assisted Solution Method

10.MARKET INSIGHTS BY APPLICATION

10.1.Smart Glass
10.2.Solar Panel
10.3.Perovskite in Tandem Solar Cells
10.4.Portable Devices
10.5.Utilities
10.6.BIPV (Building-Integrated Photovoltaics)

11.MARKET INSIGHTS BY END USE

11.1.Manufacturing
11.2.Energy
11.3.Industrial Automation
11.4.Aerospace
11.5.Consumer Electronics

12.MARKET INSIGHTS BY REGION

12.1.North America
- 12.1.1.U.S.
- 12.1.2.Canada
- 12.1.3.Rest of North America
12.2.Europe
- 12.2.1.Germany
- 12.2.2.France
- 12.2.3.UK
- 12.2.4.Italy
- 12.2.5.Spain
- 12.2.6.Rest of Europe
12.3.Asia-Pacific
- 12.3.1.China
- 12.3.2.Japan
- 12.3.3.India
- 12.3.4.Rest of APAC
12.4.Rest of the World