Global Info Research‘s report offers an in-depth look into the current and future trends in Passive Daytime Radiative Cooling Materials, making it an invaluable resource for businesses involved in the sector. This data will help companies make informed decisions on research and development, product design, and marketing strategies. It also provides insights into Passive Daytime Radiative Cooling Materials’ cost structure, raw material sources, and production processes. Additionally, it offers an understanding of the regulations and policies that are likely to shape the future of the industry. In essence, our report can help you stay ahead of the curve and better capitalize on industry trends.
According to our (Global Info Research) latest study, the global Passive Daytime Radiative Cooling Materials market size was valued at US$ 22.16 million in 2025 and is forecast to a readjusted size of US$ 123 million by 2032 with a CAGR of 25.9% during review period.
Passive daytime radiative cooling (PDRC) materials are engineered surfaces—often films, paints, or coatings—that can lower their temperature under direct sunlight without consuming energy by balancing two optical properties: they reflect most incoming solar radiation (so they absorb very little heat from the sun) and they strongly emit thermal infrared radiation in the atmospheric “transparent window” (roughly 8–13 µm), allowing heat to radiate from the surface to the cold sky/outer space. When designed well and used on sky-facing surfaces, this combination can keep the material cooler than conventional surfaces and, under favorable weather (clear skies, low humidity, low wind), can even cool to below ambient air temperature. The average price of coating products is approximately US.29 per square meter, while the average price of film products is US per square meter. Upstream sectors therefore span (1) materials: high-bandgap white pigments/fillers (e.g., BaSO₄, CaCO₃, TiO₂), polymer binders/resins, solvents (for liquid systems), and additives for dispersion, rheology, UV stability, and anti-soiling; (2) substrates & converting: roof membranes, metal panels, plastics, fabrics, primers, adhesives, and packaging; and (3) manufacturing & QA: paint-making/dispersing, film extrusion/lamination or scalable coating processes (e.g., spray/roll/dip/phase-inversion approaches) plus optical/thermal metrology to verify reflectance/emittance consistency. Downstream, PDRC materials flow into construction and roofing (new build + retrofit roofs/facades), industrial assets (tanks, warehouses, cold-chain surfaces), and outdoor infrastructure/equipment (enclosures, transport surfaces), typically sold through coating/roofing distributors, contractors, and OEM partnerships; adoption is often gated by standard test metrics (solar reflectance, thermal emittance, and SRI) used in cool-surface procurement and specifications.
The market opportunity for PDRC materials is strongest where customers value a passive, no-electricity way to cut surface temperatures and reduce cooling loads/peak demand, and where procurement can be “pulled through” existing cool-roof/cool-surface specification habits—but PDRC must prove incremental value beyond conventional high-reflectance coatings. Competition is therefore less about the basic physics (widely understood) and more about bankable field performance: maintaining high reflectance/emittance over time despite UV exposure, soiling, moisture, and real-world installation variability, with climate effects (humidity/cloud cover) and maintenance practices shaping realized benefits. Commercial winners tend to be those who can industrialize durable, standards-aligned products (including versions compatible with common roof systems and application methods), document performance with credible testing, and partner with established coatings/roofing channels—while R&D focus areas like anti-soiling, long-life binders, and scalable film/coating manufacturing determine how quickly PDRC moves from “specialty” to mainstream building and infrastructure specifications.
This report is a detailed and comprehensive analysis for global Passive Daytime Radiative Cooling Materials market. Both quantitative and qualitative analyses are presented by manufacturers, by region & country, by Type and by Application. As the market is constantly changing, this report explores the competition, supply and demand trends, as well as key factors that contribute to its changing demands across many markets. Company profiles and product examples of selected competitors, along with market share estimates of some of the selected leaders for the year 2025, are provided.
Our Passive Daytime Radiative Cooling Materials Market report is a comprehensive study of the current state of the industry. It provides a thorough overview of the market landscape, covering factors such as market size, competitive landscape, key market trends, and opportunities for future growth. It also pinpoints the key players in the market, their strategies, and offerings.
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https://www.globalinforesearch.com/reports/3405286/passive-daytime-radiative-cooling-materials
The research report encompasses the prevailing trends embraced by major manufacturers in the Passive Daytime Radiative Cooling Materials Market, such as the adoption of innovative technologies, government investments in research and development, and a growing emphasis on sustainability. Moreover, our research team has furnished essential data to illuminate the manufacturer’s role within the regional and global markets.
The research study includes profiles of leading companies operating in the Passive Daytime Radiative Cooling Materials Market:
The report is structured into chapters, with an introductory executive summary providing historical and estimated global market figures. This section also highlights the segments and reasons behind their progression or decline during the forecast period. Our insightful Passive Daytime Radiative Cooling Materials Market report incorporates Porter’s five forces analysis and SWOT analysis to decipher the factors influencing consumer and supplier behavior.
Segmenting the Passive Daytime Radiative Cooling Materials Market by application, type, service, technology, and region, each chapter offers an in-depth exploration of market nuances. This segment-based analysis provides readers with a closer look at market opportunities and threats while considering the political dynamics that may impact the market. Additionally, the report scrutinizes evolving regulatory scenarios to make precise investment projections, assesses the risks for new entrants, and gauges the intensity of competitive rivalry.
Major players covered: SPACE COOL、 Azure Era、 i2Cool、 MG Energy、 Radi-Cool、 CSCEC、 Pirta、 Cryox、 3M、 AkzoNobel、 Aorun Advanced Materials、 SKSHU Paint、 Nippon Paint、 Beixin Jiabaoli Coatings
Passive Daytime Radiative Cooling Materials Market by Type: Paints、 Films、 Others
Passive Daytime Radiative Cooling Materials Market by Application: Construction Industry、 Warehousing、 Transportation Equipment、 Energy and Power Facilities、 Others
Key Profits for Industry Members and Stakeholders:
1. The report includes a plethora of information such as market dynamics scenario and opportunities during the forecast period.
2. Which regulatory trends at corporate-level, business-level, and functional-level strategies.
3. Which are the End-User technologies being used to capture new revenue streams in the near future.
4. The competitive landscape comprises share of key players, new developments, and strategies in the last three years.
5. One can increase a thorough grasp of market dynamics by looking at prices as well as the actions of producers and users.
6 Comprehensive companies offering products, relevant financial information, recent developments, SWOT analysis, and strategies by these players.
The content of the study subjects, includes a total of 15 chapters:
Chapter 1, to describe Passive Daytime Radiative Cooling Materials product scope, market overview, market estimation caveats and base year.
Chapter 2, to profile the top manufacturers of Passive Daytime Radiative Cooling Materials, with price, sales, revenue and global market share of Passive Daytime Radiative Cooling Materials from 2020 to 2025.
Chapter 3, the Passive Daytime Radiative Cooling Materials competitive situation, sales quantity, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast.
Chapter 4, the Passive Daytime Radiative Cooling Materials breakdown data are shown at the regional level, to show the sales quantity, consumption value and growth by regions, from 2020 to 2031.
Chapter 5 and 6, to segment the sales by Type and application, with sales market share and growth rate by type, application, from 2020 to 2031.
Chapter 7, 8, 9, 10 and 11, to break the sales data at the country level, with sales quantity, consumption value and market share for key countries in the world, from 2020 to 2024.and Passive Daytime Radiative Cooling Materials market forecast, by regions, type and application, with sales and revenue, from 2025 to 2031.
Chapter 12, market dynamics, drivers, restraints, trends and Porters Five Forces analysis.
Chapter 13, the key raw materials and key suppliers, and industry chain of Passive Daytime Radiative Cooling Materials.
Chapter 14 and 15, to describe Passive Daytime Radiative Cooling Materials sales channel, distributors, customers, research findings and conclusion.
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