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市場調查報告書
商品編碼
2069149
2026 年全球被動輻射冷卻材料市場研究報告。Global Passive Radiative Cooling Materials Market Research Report 2026 |
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全球被動輻射冷卻材料市場正從實驗室檢驗和先導計畫階段過渡到早期技術商業化階段。
這些材料透過8-13微米厚的隔熱窗,結合高太陽反射率和熱輻射,有效減少熱侵入,實現低能耗或零能耗冷卻。其應用提案比傳統隔熱反射塗層更廣,正逐漸成為建築、低溫運輸物流、交通運輸、發電廠、資料中心、倉庫和公共基礎設施等領域的被動式溫度控管材料。雖然隔熱窗的高太陽反射率和高發射率是其核心性能要求,但環境劣化、污垢、紫外線照射、潮濕和磨損都會顯著降低其長期冷卻性能。
全球被動輻射冷卻材料市場規模預計將從2021年的318萬美元成長至2025年的5,077萬美元,到2032年達到3.7115億美元,2026年至2032年的複合年成長率約為26.76%。這一成長並非由單一產品形式驅動,而是得益於建築塗料、功能性薄膜、輻射冷卻板、紡織品和複合材料等領域應用範圍的全面擴展。最初,該市場由薄膜相關企業和專業技術公司主導,但從2025年起,大型塗料集團、建築工程平台和功能薄膜製造商將陸續進入該領域,市場模式也將從技術示範轉向工程採購模式。
按產品類型分類,被動輻射冷卻塗料預計將成為成長最快的細分市場。銷售額預計將從2021年的63萬美元成長到2025年的2,357萬美元,到2032年將達到2.1441億美元,2026年至2032年的複合年成長率約為31.75%。這些塗料具有極佳的擴充性,可應用於大規模屋頂、牆壁、儲存槽、穀倉、工業設施和公共基礎設施表面。阿克蘇諾貝爾在中國推出的「Sunscreen」建築塗料系統,將輻射冷卻面漆與隔熱輻射阻隔中間漆相結合,表明全球塗料行業的領先企業正在將被動輻射冷卻技術(PDRC)不僅作為一種獨立的特種塗料,而且作為建築節能系統的一部分進行整合。
被動輻射冷卻膜、薄膜和片材仍然是一個高價值、技術密集的細分市場。預計銷售額將從2021年的229萬美元成長到2025年的2,460萬美元,到2032年將達到1.3803億美元。薄膜產品尤其適用於建築玻璃、倉庫屋頂、貨櫃、車輛表面、太陽能電池背板、電子設備機殼和低溫運輸運輸。透明薄膜、透氣輻射冷卻薄膜和自黏薄膜為不適合塗層的表面提供了解決方案。 SkyCool的系統化解決方案,包括輻射冷卻板和屋頂薄膜,顯示該細分市場正在從單純的材料銷售擴展到整合式隔熱系統。加州能源委員會的專案資訊也表明,將SkyCool面板連接到空調和冷凍系統可以提高冷卻效率和容量。
從反射率類別來看,反射率超過96%的產品正成為技術升級的重點領域。預計銷售額將從2021年的7萬美元成長到2025年的581萬美元,到2032年達到1.099億美元,2026年至2032年的複合年成長率預計約為45.05%。這一趨勢反映了市場正從傳統的白色反射隔熱材料。基於BaSO4的系統、陶瓷材料、多孔聚合物、微/奈米結構薄膜和高發射率塗層預計將成為主要的研發方向。同時,「反射率低於 96%/未公開」細分市場預計到 2032 年也將達到 2.6125 億美元。這是因為許多商業項目優先考慮成本、可操作性、耐用性、顏色匹配、供應商可靠性和整體節能效果,而不是最大反射率。
按顏色分類,白色產品預計仍將是主要的收入來源。白色產品的銷售額預計將從2021年的220萬美元成長到2025年的3,788萬美元,到2032年達到25,112億美元。白色材料在屋頂、外牆、穀倉、儲存槽、低溫運輸倉庫和工業設備等領域,兼具最佳的性能和成本優勢。彩色產品的銷售額預計將從2025年的469萬美元成長到2032年的5,081萬美元,主要成長動力來自建築美學、運輸設備、紡織品應用、遮陽材料和消費品應用。透明產品的銷售額預計將從2025年的820萬美元成長到2032年的6922萬美元,主要成長動力來自建築玻璃、汽車玻璃、透明窗膜、商業建築維修以及與太陽能和顯示器相關的溫度控管需求。
按應用領域分類,預計到2032年,「物流和倉儲」產業將成為最大的終端用戶市場,規模達到1.4794億美元,超過規模為8,284萬美元的「建設產業。這表明PDRC材料的應用範圍正在從建築節能塗料擴展到冷藏倉庫、食品和藥品物流、貨櫃以及溫控貨物的運輸。預計到2032年,在汽車、冷藏車、貨櫃、船舶船體和專用設備的推動下,運輸設備產業的市場規模將達到6,421萬美元。預計到2032年,在太陽能、電池能源儲存系統、電信基地台、電氣櫃、資料中心和工業設備機殼等領域的商機推動下,能源和電力設施產業的市場規模將達到5,382萬美元。隨著SkyCool等公司推廣用於熱基礎設施的輻射散熱和無水冷卻概念,資料中心正成為一個新的成長領域。
儘管競爭格局依然高度集中,但多元化的跡像已初見端倪。到2025年,排名前五的製造商——Radi-Cool、MG Energy、i2Cool、SPACE COOL和Azure Era——將佔全球被動輻射冷卻材料產值的約72%。 Radi-Cool憑藉其在薄膜領域的早期領先地位和多元化的產品組合而受益。 MG Energy正透過冷卻薄膜、塗料和電子產品紡織品應用迅速拓展業務。 i2Cool已建構了涵蓋塗料、薄膜、薄膜、陶瓷和紡織品的廣泛產品系列。 SPACE COOL是日本薄膜商業化領域的領導者。 Azure Era也在透明建築薄膜領域確立了差異化優勢。隨著天酷、中國建築、阿克蘇諾貝爾、立邦塗料、SKSHU塗料、第一新材料和北新嘉寶利塗料等公司的加入,CR5的市場佔有率預計將從2025年的72.00%下降到2026年的64.76%。競爭的重點將逐漸從概念驗證技術轉向可擴展的供應、認證、工程管道和長期戶外耐久性。
從區域上看,亞太地區是主要的消費和生產中心。預計消費量將從2025年的4,000萬美元成長到2032年的2.4546億美元。在中國,被動輻射冷卻膜和薄膜/片材兩大主要生產線的產值預計將從2025年的1,572萬美元成長到2032年的9,810萬美元。同時,被動輻射冷卻塗料的產值預計將從2025年的2,040萬美元成長到2032年的1.9,849億美元。北美市場預計將從2025年的523萬美元成長到2032年的5,231萬美元,這主要得益於SkyCool、ChillSkyn、Cryo X Co和Ceracool等產品及其在低溫運輸、工業資產、資料中心、公共建築和都市區熱島效應緩解等領域的應用。預計到2032年,歐洲市場規模將從2025年的238萬美元成長至3,829萬美元,主要得益於綠建築法規、強制節能改造以及公共基礎設施維修。預計到2032年,中東和非洲市場規模將達到2,775萬美元,主要得益於當地較高的環境溫度和結構性的高冷凍需求。
關鍵成長要素包括建築冷凍負載的增加、低溫運輸物流和資料中心對被動式溫度控管需求的成長、大型塗料和建材公司的進入、應用範圍從白色屋頂擴展到彩色、透明、柔軟性解決方案和系統化解決方案,以及對綠色建築、緩解城市熱島效應、提高糧食儲存效率、低溫運輸和發電設施溫度控管等方面的政策支持。該市場的主要挑戰包括長期耐候性、抗污垢性和抗紫外線性能、清潔要求、測試標準的標準化、與傳統冷屋頂材料的價格競爭,以及需要在實際運行條件下證明其生命週期經濟性。
總體而言,到2032年,被動輻射冷卻材料預計將發展成為一個多元化的材料平台。塗料和油漆將推動其大規模應用,膜材、薄膜和片材將支援高價值和專業應用,其他材料將透過面板、紡織品、模組和系統整合等方式擴展。白色產品仍將是主要的收入來源,高反射率材料將向高階性能方向發展,而彩色和透明產品的目標市場將擴展到交通運輸、玻璃幕牆、紡織遮陽篷和消費品應用領域。該市場仍在發展中,技術也多種多樣,但它具有明顯的長期潛力,有望成為建築節能、低溫運輸物流、都市區熱島效應緩解、能源基礎設施和低碳冷卻等領域的關鍵材料類別。
調查範圍
本報告旨在全面概述全球被動輻射冷卻材料市場,並結合定量和定性分析。其目標是幫助讀者制定業務/成長策略、評估市場競爭、分析自身當前市場地位,並就被動輻射冷卻材料做出明智的商業決策。
本報告全面概述了全球被動輻射冷卻材料市場,結合定量和定性分析,旨在幫助讀者制定成長策略、評估競爭格局、分析當前市場地位,並就被動輻射冷卻材料做出明智的商業決策。報告以2025年為基準年,以產量/出貨量(千平方米)和收入(千美元)為單位,呈現了被動輻射冷卻材料的市場規模、估算和預測,並涵蓋了2021年至2032年的歷史數據和預測數據。
本報告對全球被動輻射冷卻材料市場進行了全面的細分,並按類型、應用和公司提供了區域市場規模細分數據。
為了獲得更深入的了解,本報告分析了競爭格局、主要競爭對手及其各自的市場排名,並探討了技術趨勢和新產品開發。
本報告提供了整個市場及其細分市場的銷售額、產量和平均價格信息,並按公司、類型、應用和地區進行了細分,旨在為被動輻射冷卻材料行業價值鏈中的製造商、新參與企業和公司提供支持。
市場區隔
公司
按類型分類的細分市場
按產品類型細分
顏色編碼片段
特定用途的剪輯
區域生產狀況
按地區分類的消費狀況
The global Passive Radiative Cooling Materials market is moving from laboratory validation and pilot projects toward early-stage engineering commercialization. These materials reduce heat gain by combining high solar reflectance with thermal emission through the 8-13 μm atmospheric window, enabling low-energy or zero-energy cooling. Their value proposition is broader than conventional thermal-reflective coatings: they are emerging as passive thermal management materials for buildings, cold chain logistics, transportation assets, power facilities, data centers, warehouses, and public infrastructure. Academic literature highlights that high solar reflectance and atmospheric-window emissivity are the core performance requirements, while environmental aging, soiling, UV exposure, moisture, and abrasion can materially reduce long-term cooling performance.
The total global market for Passive Radiative Cooling Materials increased from USD 3.18 million in 2021 to USD 50.77 million in 2025 and is projected to reach USD 371.15 million by 2032, representing a 2026-2032 CAGR of approximately 26.76%. Growth is not driven by a single product form, but by the combined expansion of architectural coatings, functional films, radiative cooling panels, textiles, and composite applications. The market was initially led by film-oriented and specialist technology companies, while after 2025, large coating groups, construction engineering platforms, and functional film producers began entering the sector, shifting the market from a technology-demonstration model toward an engineering-procurement model.
By product type, Passive Radiative Cooling Coating and Paint is expected to be the fastest-growing segment. Revenue increased from USD 0.63 million in 2021 to USD 23.57 million in 2025 and is projected to reach USD 214.41 million by 2032, with a 2026-2032 CAGR of approximately 31.75%. Coatings and paints are highly scalable because they can be applied to large roof, wall, storage tank, grain warehouse, industrial facility, and public infrastructure surfaces. AkzoNobel's launch in China of a building "sunscreen" coating system, combining a radiative cooling topcoat with a thermal radiation barrier mid-coat, shows that global coating leaders are integrating PDRC into building energy-efficiency systems rather than treating it as a standalone specialty coating.
Passive Radiative Cooling Membrane, Film and Sheet remains a high-value and technology-intensive segment. Revenue increased from USD 2.29 million in 2021 to USD 24.60 million in 2025 and is projected to reach USD 138.03 million by 2032. Film-based products are especially suitable for architectural glass, warehouse roofs, containers, vehicle surfaces, photovoltaic backsheets, electronics housings, and cold chain transportation. Transparent films, transmissive radiative cooling films, and self-adhesive films can address surfaces where coatings are less suitable. SkyCool's system-oriented approach, including radiative cooling panels and roof films, indicates that this segment is expanding beyond material sales toward integrated heat-rejection systems. California Energy Commission project information also shows that SkyCool panels can be connected to air-conditioning or refrigeration systems to improve cooling efficiency and capacity.
By reflectivity category, products with Reflectivity Greater Than 96% are becoming the key technology-upgrade segment. Revenue increased from USD 0.07 million in 2021 to USD 5.81 million in 2025 and is expected to reach USD 109.90 million by 2032, with a 2026-2032 CAGR of approximately 45.05%. This trend reflects a shift from conventional white reflective or insulation materials toward high-performance PDRC materials with stronger spectral selectivity, higher solar reflectance, and higher atmospheric-window emissivity. BaSO4-based systems, ceramic materials, porous polymers, micro/nano-structured films, and high-emissivity coatings are expected to be major technology pathways. At the same time, the Reflectivity Less Than 96% / Not Disclosed segment is still projected to reach USD 261.25 million by 2032, because many commercial projects prioritize cost, installability, durability, color matching, supplier reliability, and total energy savings over maximum reflectivity.
By color, White products will remain the dominant revenue base. White product revenue increased from USD 2.20 million in 2021 to USD 37.88 million in 2025 and is projected to reach USD 251.12 million by 2032. White materials offer the best balance of performance and cost for roofs, facades, grain warehouses, storage tanks, cold-chain warehouses, and industrial equipment. Colored products are projected to grow from USD 4.69 million in 2025 to USD 50.81 million by 2032, supported by architectural aesthetics, transportation equipment, textile applications, shading materials, and consumer-oriented use cases. Transparent products are projected to increase from USD 8.20 million in 2025 to USD 69.22 million by 2032, driven by architectural glass, automotive glazing, transparent window films, commercial building retrofits, and photovoltaic/display-related thermal management demand.
By application, Logistics and Warehousing is expected to become the largest end-use market by 2032, reaching USD 147.94 million, ahead of the Construction Industry at USD 82.84 million. This indicates that PDRC materials are expanding from building energy-saving coatings into cold storage, food and pharmaceutical logistics, refrigerated warehouses, containers, and temperature-sensitive cargo transportation. Transportation Equipment is projected to reach USD 64.21 million by 2032, driven by vehicles, refrigerated trucks, containers, marine surfaces, and specialty equipment. Energy and Power Facilities are projected to reach USD 53.82 million by 2032, with opportunities in photovoltaics, battery energy storage systems, telecom base stations, electrical cabinets, data centers, and industrial equipment housings. Data centers are becoming an emerging opportunity area as companies such as SkyCool promote radiative heat rejection and water-free cooling concepts for thermal infrastructure.
The competitive landscape remains concentrated, but it is beginning to decentralize. In 2025, the top five manufacturers-Radi-Cool, MG Energy, i2Cool, SPACE COOL, and Azure Era-accounted for approximately 72.00% of global Passive Radiative Cooling Materials production value. Radi-Cool benefits from early leadership in films and multi-product deployment; MG Energy is scaling rapidly through electronics cooling films, coatings, and textile applications; i2Cool has built a broad portfolio across coatings, films, membranes, ceramics, and textiles; SPACE COOL represents Japan's film commercialization route; and Azure Era has a differentiated position in transmissive architectural films. With the entry of SkyCool, CSCEC, AkzoNobel, Nippon Paint, SKSHU Paint, First New Material, and Beixin Jiabaoli Coatings, the CR5 is expected to decline from 72.00% in 2025 to 64.76% in 2026. Competition will gradually shift from technology proof-of-concept to scalable supply, certification, engineering channels, and long-term outdoor durability.
Regionally, Asia-Pacific is the core consumption and production hub. Consumption is expected to rise from USD 40.00 million in 2025 to USD 245.46 million by 2032. China is particularly dominant in both major production lines: production value of Passive Radiative Cooling Membrane, Film and Sheet in China is projected to increase from USD 15.72 million in 2025 to USD 98.10 million by 2032, while production value of Passive Radiative Cooling Coating and Paint in China is projected to rise from USD 20.40 million in 2025 to USD 198.49 million by 2032. North America is projected to grow from USD 5.23 million in 2025 to USD 52.31 million by 2032, driven by SkyCool, ChillSkyn, Cryo X Co, Ceracool, and applications in cold chain, industrial assets, data centers, public buildings, and urban heat mitigation. Europe is projected to grow from USD 2.38 million in 2025 to USD 38.29 million by 2032, supported by green building regulations, energy-efficiency mandates, and public infrastructure retrofits. The Middle East and Africa are projected to reach USD 27.75 million by 2032, supported by high ambient temperatures and structurally high cooling demand.
Key growth drivers include rising building cooling loads, increasing demand for passive thermal management in cold chain logistics and data centers, entry of established coating and construction-material companies, expansion from white roof applications into colored, transparent, flexible, and system-based solutions, and policy support for green buildings, urban heat island mitigation, grain storage efficiency, cold-chain energy reduction, and power facility thermal management. The market's main challenges include long-term weathering, soiling, UV stability, cleaning requirements, testing standardization, price competition against conventional cool roof materials, and the need to demonstrate lifecycle economics under real operating conditions.
Overall, Passive Radiative Cooling Materials are expected to evolve into a multi-format materials platform by 2032. Coating and Paint will drive volume-scale adoption, Membrane, Film and Sheet will support high-value and specialized applications, and Others will expand through panels, textiles, modules, and system integration. White products will remain the main revenue base, high-reflectivity materials will become the premium performance direction, and colored and transparent products will broaden the addressable market into transportation, glass facades, textile shading, and consumer-facing applications. The market remains young and technology-diverse, but it has clear long-term potential to become an important material category in building energy efficiency, cold chain logistics, urban heat mitigation, energy infrastructure, and low-carbon cooling.
Report Scope
This report aims to provide a comprehensive presentation of the global market for Passive Radiative Cooling Materials, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Passive Radiative Cooling Materials.
This report delivers a comprehensive overview of the global Passive Radiative Cooling Materials market, with both quantitative and qualitative analyses, to help readers develop growth strategies, assess the competitive landscape, evaluate their position in the current market, and make informed business decisions regarding Passive Radiative Cooling Materials. The Passive Radiative Cooling Materials market size, estimates, and forecasts are provided in terms of output/shipments (K Sqm) and revenue (K USDs), with 2025 as the base year and historical and forecast data for 2021-2032.
The report segments the global Passive Radiative Cooling Materials market comprehensively. Regional market sizes by Type, by Application, and by company are also provided.
For deeper insight, the report profiles the competitive landscape, key competitors, and their respective market rankings, and discusses technological trends and new product developments.
This report will assist Passive Radiative Cooling Materials manufacturers, new entrants, and companies across the industry value chain with information on revenues, production, and average prices for the overall market and its sub-segments, by company, by Type, by Application, and by region.
Market Segmentation
By Company
Segment by Type
Segment by Product Category
Segment by Color
Segment by Application
Production by Region
Consumption by Region
Chapter Outline
Chapter 1: Defines the scope of the report and presents an executive summary of market segments (by Type, by Product Category, by Color, by Application, etc.), including the size of each segment and its future growth potential. It offers a high-level view of the current market and its likely evolution in the short, medium, and long term.
Chapter 2: Provides a detailed analysis of the competitive landscape for Passive Radiative Cooling Materials manufacturers, including prices, production, value-based market shares, latest development plans, and information on mergers and acquisitions.
Chapter 3: Examines Passive Radiative Cooling Membrane, Film and Sheet production/output and value by region and country, providing a quantitative assessment of market size and growth potential for each region over the next six years.
Chapter 4: Examines Passive Radiative Cooling Coating and Paint production/output and value by region and country, providing a quantitative assessment of market size and growth potential for each region over the next six years.
Chapter 5: Analyzes Passive Radiative Cooling Materials consumption at the regional and country levels. It quantifies market size and growth potential for each region and its key countries, and outlines market development, outlook, addressable space, and national production.
Chapter 6: Analyzes market segments by Type, covering the size and growth potential of each segment to help readers identify "blue ocean" opportunities.
Chapter 7: Analyzes market segments by Application, covering the size and growth potential of each segment to help readers identify "blue ocean" opportunities in downstream markets.
Chapter 8: Profiles key players, detailing the fundamentals of major companies, including product production/output, value, price, gross margin, product portfolio/introductions, and recent developments.
Chapter 9: Reviews the industry value chain, including upstream and downstream segments.
Chapter 10: Discusses market dynamics and recent developments, including drivers, restraints, challenges and risks for manufacturers, U.S. Tariffs and relevant policy analysis.
Chapter 11: Summarizes the key findings and conclusions of the report.