軟性太陽能電池的成長機會

對應用多樣性和降低能源成本潛力的興趣增加

實現淨零排放需要在人類生活的各個方面實現脫碳，而可再生能源的生產至關重要。軟性太陽能電池具有廣泛的現有和新的應用領域，使其成為一個有吸引力的提案。與通常由矽晶型製成的傳統固定格式太陽能板相比，軟性太陽能電池可以彎曲、彎曲並適應不同的表面幾何形狀。軟性太陽能電池也更輕，這使得它們在小規模應用中更有效用。這些功能共同為將太陽能整合到消費性電子產品、穿戴式裝置、紡織品、太陽能建築一體化、戶外和軍事設備以及天基應用中創造了新的可能性。

本研究報告重點關注正在徹底改變太陽能電池產業的現代和新興太陽能電池技術。主題包括技術前景，包括現代和新型軟性太陽能電池技術的形勢，對其製造中使用的典型基板材料的分析，以及功率轉換效率、技術成熟度、能隙範圍和成本等參數。的技術基於

涵蓋了軟性太陽能電池的各個應用領域。還包括專利分析、突出該行業主要企業的創新格局的考察，以及揭示採用的關鍵成功因素的成長機會分析。

目錄

戰略問題

• 為什麼成長如此困難？ ：阻礙成長的因素
• The Strategic Imperative 8（TM）
• 軟性太陽能電池產業三大戰略挑戰的影響
• 成長機會推動Growth Pipeline Engine（TM）
• 調查方法

成長機會分析

• 分析範圍：軟性太陽能電池對於普及太陽能在日常生活中的普及至關重要
• 細分：克服現代軟性太陽能電池面臨的挑戰的新技術
• 生長促進因子
• 成長抑制因素

技術簡介

• 軟性太陽能電池：對清潔能源的期望推動成長
• 軟性太陽能電池：運行機制
• 現代軟性太陽能電池：促進太陽能在廣泛應用中的使用
• 現代軟性太陽能電池：生產中使用的對環境有害的物質阻礙了普及
• 軟性太陽能電池新技術提供更永續和高效能的解決方案
• 用於生產軟性太陽能電池的基板類型
• 軟性太陽能電池可實現廣泛的應用
• 新型軟性太陽能電池尚未達到與現代太陽能電池一樣高的PCE
• 軟性太陽能電池的比較分析

創新生態系統

• 學術界和商業界處於軟性太陽能電池研究活動的最前沿
• ASCA（法國）：為眾多應用提供靈活的 OSC
• Exeger（瑞典）：利用尖端 DSSC 技術進行創新
• 軟性太陽能電池領域的其他主要企業
• 中國壟斷軟性太陽能電池專利
• 來自軟性太陽能電池相關人員的主要資金籌措

成長機會領域

• 成長機會一：內建電源家電的出現
• 成長機會2：材料製造商加強封裝解決方案的開拓機會
• 成長機會3：實現下一代農業太陽能發電與精密農業

附錄

• 技術成熟度等級 (TRL)：解釋

下一步

Application Diversity and Potential for Lower Levelized Cost of Energy Fuel Interest

Net zero goals requires decarbonization in every aspect of human life, and renewable energy production is essential. Flexible solar cells are a compelling proposition because of their wide variety of existing and novel application areas. In contrast to conventional, fixed-format solar panels often crafted from crystalline silicon, flexible solar cells can be bent, curved, and otherwise adapted to diverse surface geometries. Flexible solar cells are also much more lightweight, which enhances their utility in small-scale applications. The combination of these features provides new possibilities for integrating solar power into consumer electronics and wearables, fabrics, building integrated photovoltaics, outdoor and military equipment, and space-based applications.

This research study emphasizes the contemporary and emerging solar cell technologies that are revolutionizing the solar industry. Topics include the technology landscape that includes the categorization of contemporary and emerging flexible solar cell technologies, an analysis of typical substrate materials utilized in their fabrication, and a comparison of technologies based on parameters including power conversion efficiency, technology maturity, band gap range, and cost.

Various application areas for flexible solar cells are highlighted. A patent analysis, a look at the innovation landscape that highlights key commercial players in the domain, and a growth opportunity analysis that sheds light on the key enablers for adoption are included.

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Flexible Solar Cell Industry
• Growth Opportunities Fuel the Growth Pipeline Engine™
• Research Methodology

Growth Opportunity Analysis

• Scope of Analysis-Flexible Solar Cells Essential for Increasing Solar Energy Penetration in Day-to-Day Life
• Segmentation-Emerging Technologies Overcome the Challenges That Contemporary Flexible Solar Cells Face
• Growth Drivers
• Growth Restraints

Technology Snapshot

• Flexible Solar Cells-Impetus on Clean Energy Fueling Growth
• Flexible Solar Cells-Working Mechanism
• Contemporary Flexible Solar Cells-Facilitating Utilization of Solar Power in Broad Range of Applications
• Contemporary Flexible Solar Cells-Environmentally Hazardous Materials Used in Fabrication Hamper their Widescale Usage
• Emerging Flexible Solar Cells Technologies-Providing a More Sustainable and High-Performance Solution
• Types of Substrates Used in Fabrication of Flexible Solar Cells
• Flexible Solar Cells Facilitating a Wide Range of Applications
• Emerging Flexible Solar Cells Are Yet to Achieve PCE as High as Contemporary Ones
• Comparative Analysis of Flexible Solar Cells

Innovation Ecosystem

• Academia and Commercial Players at the Forefront of Research Activities in Flexible Solar Cells
• ASCA, France-Providing Flexible OSCs for a Multitude of Applications
• Exeger, Sweden-Innovating in Cutting-Edge DSSC Technology
• Other Key Players in the Flexible Solar Cell Domain
• China Dominates the Flexible Solar Cells Patent Landscape
• Key Funding from Flexible Solar Cells Stakeholders

Growth Opportunity Universe

• Growth Opportunity 1: Emergence of Self-Powered Consumer Electronics
• Growth Opportunity 2: Greenfield Opportunity for Material Fabricators to Provide Enhanced Encapsulation Solutions
• Growth Opportunity 2: Greenfield Opportunity for Material Fabricators to Provide Enhanced Encapsulation Solutions
• Growth Opportunity 3: Enabling the Next Generation of Agrivoltaics and Precision Farming Practices
• Growth Opportunity 3: Enabling the Next Generation of Agrivoltaics and Precision Farming Practices

Appendix

• Technology Readiness Levels (TRL): Explanation

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