Summary

The global advanced phase change materials market size reached USD 1.8 Billion in 2024. Looking forward, IMARC Group expects the market to reach USD 4.4 Billion by 2033, exhibiting a growth rate (CAGR) of 10.7% during 2025-2033. A considerable rise in the demand for energy-efficient solutions, increasing emphasis on sustainability and environmental conservation, and continual advancements in thermal management technologies in the automotive industry are some of the major factors propelling the market.

Advanced phase change materials (PCMs) are innovative substances engineered to store and release thermal energy during phase transitions, thereby providing efficient temperature regulation. These materials possess the ability to change their physical state, such as from solid to liquid or vice versa, at specific temperature ranges. By harnessing the principles of latent heat, Advanced PCMs enable effective heat transfer and control, ensuring optimal energy utilization and enhanced system performance. Advanced PCMs have gained significant attention across various industries for their remarkable heat storage and release capabilities, making them ideal for applications where thermal management is crucial.

The global market is primarily driven by the increased adoption of advanced PCMs in medical devices and temperature-controlled packaging in the healthcare sector. In line with this, the rapid utilization of thermal regulation properties of PCMs to enhance comfort and insulation in sportswear and outdoor fabrics and garments is fueling the market. Moreover, the growing product adoption in thermal energy storage systems to facilitate uninterrupted power generation in the renewable energy sector is providing an impetus to the market. Additionally, extensive research and development (R&D) efforts focused on improving the performance and cost-effectiveness of advanced PCMs are contributing to the market growth. Some of the other factors contributing to the market include rapid urbanization, the introduction of smart grid facilities, increasing vehicle electrification, and continual product innovations.

Advanced Phase Change Materials Market Trends/Drivers:
Rise in the demand for energy-efficient solutions

The demand for energy-efficient solutions in buildings and infrastructure has significantly contributed to the adoption of advanced PCMs. These innovative materials are being incorporated into various construction components, such as concrete and insulation, to improve thermal insulation properties and reduce heating and cooling loads. By integrating Advanced PCMs, buildings can enhance energy conservation, leading to reduced energy consumption and improved sustainability. These materials effectively store and release thermal energy during phase transitions, providing efficient temperature regulation and contributing to the overall energy efficiency of structures. As the focus on energy efficiency continues to grow, the utilization of Advanced PCMs in construction is expected to expand, enabling the development of greener and more sustainable buildings.

An enhanced focus on sustainable development

The market is impelled by an increasing emphasis on sustainability and environmental conservation. Advanced PCMs offer a greener alternative to conventional heating and cooling systems, making them an attractive choice for environmentally conscious businesses and individuals. By leveraging the unique properties of PCMs, such as their ability to store and release thermal energy, these materials minimize energy consumption and contribute to a significant reduction in greenhouse gas emissions. Advanced PCMs play a crucial role in enhancing energy efficiency and sustainability across various industries, including construction, transportation, and renewable energy. As businesses strive to adopt eco-friendly practices and comply with environmental regulations, the demand for Advanced PCMs is expected to rise, further driving the market growth.

Continual advancements in thermal management technologies

The automotive industry is witnessing a rapid adoption of advanced PCMs for thermal management, particularly in electric vehicles (EVs) and hybrid vehicles. These innovative materials are employed in battery packs and thermal management systems to regulate the temperature of the batteries, resulting in enhanced efficiency and extended lifespan. By effectively managing thermal conditions, Advanced PCMs play a critical role in optimizing battery performance and ensuring safe operation. Additionally, the utilization of PCMs in EVs and hybrid vehicles contributes to reduced energy consumption and increased overall vehicle efficiency. As the demand for electric and hybrid vehicles continues to grow, the automotive industry's reliance on Advanced PCMs is expected to expand, driving further advancements in thermal management technologies and propelling the market forward.

Advanced Phase Change Materials Industry Segmentation:
IMARC Group provides an analysis of the key trends in each segment of the global advanced phase change materials market report, along with forecasts at the global and regional levels from 2025-2033. Our report has categorized the market based on type, form and application.

Breakup by Type:

• Organic PCM
• Inorganic PCM
• Bio-Based PCM

Organic PCM dominates the market

The report has provided a detailed breakup and analysis of the market based on the product type. This includes organic PCM, inorganic PCM and bio-based PCM. According to the report, organic PCM represented the largest segment.

The organic PCM segment is being driven by the rising demand for sustainable and environmentally friendly materials, particularly in industries including HVAC, textiles, packaging, and electronics. The growing emphasis on energy efficiency in buildings and construction further fuels the adoption of organic PCM, which is supported by favorable government regulations promoting energy conservation. Additionally, advancements in material science and technology have led to the development of improved organic PCM with enhanced properties, thereby contributing to the segment growth.

On the other hand, inorganic PCM offers high thermal conductivity and stability, making it suitable for a wide range of applications in energy storage, automotive, aerospace, and construction industries. The increasing emphasis on thermal management and waste heat recovery in various sectors is driving the demand for inorganic PCM. Additionally, stringent regulations on greenhouse gas emissions are promoting the adoption of inorganic PCM as an environmentally sustainable solution, leading to increased investments in research and development to further enhance its performance.

Furthermore, the bio-based PCM segment is fueled by increasing awareness and preference for renewable materials, supported by government initiatives to reduce dependence on fossil fuels. The growing demand for bio-based PCM in various applications such as cold chain logistics, textiles, and food processing is driven by its sustainable attributes. Advancements in bio-based PCM technology are leading to enhanced thermal performance and stability, aligning with the heightened focus on reducing carbon footprints and achieving sustainability goals.

Breakup by Form:

• Encapsulated
• Non-Encapsulated

Encapsulated dominates the market

The report has provided a detailed breakup and analysis of the market based on the form. This includes encapsulated and non-encapsulated. According to the report, encapsulated PCM represented the largest segment.

The compatibility and stability of PCM have significantly improved with the advancement of encapsulation technology, providing enhanced protection against leakage or degradation. This has led to an increasing demand for encapsulated PCM, as it allows for controlled and targeted release in specific applications, and its application areas have expanded to include textiles, electronics, and energy storage. Consequently, there is a rising investment in research and development to develop more efficient and cost-effective encapsulation techniques.

On the other hand, non-encapsulated PCM is favored due to its cost-effectiveness and simplicity, allowing for easy integration into existing systems and products. The construction, building materials, and thermal regulation sectors are experiencing a growing demand for bulk PCM, as it offers an efficient solution. Moreover, the availability of a wide range of non-encapsulated PCM with varying melting temperatures caters to diverse application requirements. This has further fueled the focus on customized solutions and tailored PCM formulations to meet specific needs.

Breakup by Application:

• Building and Construction
• Packaging
• HVAC
• Textiles
• Electronics
• Others

Building and construction hold the largest share in the market

A detailed breakup and analysis of the market based on the application has also been provided in the report. This includes building and construction, packaging, HVAC, textiles, electronics and others. According to the report, building and construction accounted for the largest market share.

The main factors that are driving the growth of this segment are the rising number of dental offices around the world and the widespread use of aesthetic dentistry by both small- and large-scale dental offices. Additionally, the rise of the market is predicted to increase because of the rising number of dental clinics, majorly in developed countries.

The expansion of the multi-specialty hospitals in both established and developing countries and improved reimbursement rules for operations are also expected to support the expansion of the hospital segment during the forecast period.

Depending on the area, public healthcare tends to provide dentists in industrialized nations with adequate compensation for their services and treatments. Additionally, there might be room for the dental clinics to expand given the growing popularity of the dental franchise model. The advantages of a dental franchise model comprise of enhanced negotiation leverage and cost savings through economies of scale.

Regional Insights:

• Europe
• North America
• Asia Pacific
• Middle East and Africa
• Latin America

Europe exhibits a clear dominance, accounting for the largest market share

The report has also provided a comprehensive analysis of all the major regional markets, which include Europe, North America, Asia Pacific, Middle East and Africa, and Latin America.

Europe held the biggest market share since the region is focusing on increased implementation of energy-efficient practices in buildings and construction projects. The market in this region is primarily driven by strict regulations and initiatives that promote energy efficiency and sustainability.

Additionally, there is a growing demand for advanced thermal management solutions across various industries in the region. The presence of supportive government policies and incentives further encourages the adoption of PCM technology.

Moreover, there is a strong emphasis on reducing carbon emissions and achieving climate targets, driving the need for innovative solutions such as PCM in the region. Furthermore, the growing interest in renewable energy sources, such as solar and wind power, leading to the accelerating need for PCM in energy storage applications.

Competitive Landscape:
The top players in the market are focusing on research and development activities to innovate and improve the performance of PCM materials and expanding their range of applications. These players are also actively collaborating with industry partners, including manufacturers, researchers, and end-users, to develop customized solutions and address specific market demands. Additionally, they are investing in marketing and promotional activities to raise awareness about the benefits of advanced PCM materials for targeting key sectors and geographies. Furthermore, the major companies are expanding their global presence through strategic mergers and acquisitions, and investments in production facilities. Besides this, they are also emphasizing sustainability by developing environmentally friendly PCM solutions and promoting their use in sustainable systems and building practices.

The report has provided a comprehensive analysis of the competitive landscape in the market. Detailed profiles of all major companies have also been provided. Some of the key players in the market include:

• BASF SE
• Cryopak
• Entropy Solutions
• Honeywell International Inc.
• Outlast Technologies LLC
• Climator Sweden AB
• Croda International Plc
• Phase Change Material Products Limited
• Phase Change Energy Solutions
• Pluss Advanced Technologies Pvt. Ltd.
• RGEES, LLC.
• Rubitherm Technologies GmbH
• Salca BV
• SGL Group

Key Questions Answered in This Report
1.What was the size of the global advanced phase change materials market in 2024?
2.What is the expected growth rate of the global advanced phase change materials market during 2025-2033?
3.What are the key factors driving the global advanced phase change materials market?
4.What has been the impact of COVID-19 on the global advanced phase change materials market?
5.What is the breakup of the global advanced phase change materials market based on the type?
6.What is the breakup of the global advanced phase change materials market based on the form?
7.What is the breakup of the global advanced phase change materials market based on the application?
8.What are the key regions in the global advanced phase change materials market?
9.Who are the key players/companies in the global advanced phase change materials market?

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Table of Contents

1 Preface
2 Scope and Methodology
2.1 Objectives of the Study
2.2 Stakeholders
2.3 Data Sources
2.3.1 Primary Sources
2.3.2 Secondary Sources
2.4 Market Estimation
2.4.1 Bottom-Up Approach
2.4.2 Top-Down Approach
2.5 Forecasting Methodology
3 Executive Summary
4 Introduction
4.1 Overview
4.2 Key Industry Trends
5 Global Advanced Phase Change Materials Market
5.1 Market Overview
5.2 Market Performance
5.3 Impact of COVID-19
5.4 Market Breakup by Type
5.5 Market Breakup by Form
5.6 Market Breakup by Application
5.7 Market Breakup by Region
5.8 Market Forecast
5.9 SWOT Analysis
5.9.1 Overview
5.9.2 Strengths
5.9.3 Weaknesses
5.9.4 Opportunities
5.9.5 Threats
5.10 Value Chain Analysis
5.10.1 Overview
5.10.2 Research and Development
5.10.3 Raw Material Procurement
5.10.4 Manufacturing
5.10.5 Distribution
5.10.6 Export
5.10.7 End-Use
5.11 Porters Five Forces Analysis
5.11.1 Overview
5.11.2 Bargaining Power of Buyers
5.11.3 Bargaining Power of Suppliers
5.11.4 Degree of Competition
5.11.5 Threat of New Entrants
5.11.6 Threat of Substitutes
5.12 Price Analysis
5.12.1 Key Price Indicators
5.12.2 Price Structure
5.12.3 Price Trends
6 Market Breakup by Type
6.1 Organic PCM
6.1.1 Market Trends
6.1.2 Market Forecast
6.2 Inorganic PCM
6.2.1 Market Trends
6.2.2 Market Forecast
6.3 Bio-Based PCM
6.3.1 Market Trends
6.3.2 Market Forecast
7 Market Breakup by Form
7.1 Encapsulated
7.1.1 Market Trends
7.1.2 Market Forecast
7.2 Non-Encapsulated
7.2.1 Market Trends
7.2.2 Market Forecast
8 Market Breakup by Application
8.1 Building and Construction
8.1.1 Market Trends
8.1.2 Market Forecast
8.2 Packaging
8.2.1 Market Trends
8.2.2 Market Forecast
8.3 HVAC
8.3.1 Market Trends
8.3.2 Market Forecast
8.4 Textiles
8.4.1 Market Trends
8.4.2 Market Forecast
8.5 Electronics
8.5.1 Market Trends
8.5.2 Market Forecast
8.6 Others
8.6.1 Market Trends
8.6.2 Market Forecast
9 Market Breakup by Region
9.1 Europe
9.1.1 Market Trends
9.1.2 Market Forecast
9.2 North America
9.2.1 Market Trends
9.2.2 Market Forecast
9.3 Asia Pacific
9.3.1 Market Trends
9.3.2 Market Forecast
9.4 Middle East and Africa
9.4.1 Market Trends
9.4.2 Market Forecast
9.5 Latin America
9.5.1 Market Trends
9.5.2 Market Forecast
10 Advanced Phase Change Materials Manufacturing Process
10.1 Product Overview
10.2 Raw Material Requirements
10.3 Manufacturing Process
10.4 Key Success and Risk Factors
11 Competitive Landscape
11.1 Market Structure
11.2 Key Players
11.3 Profiles of Key Players
11.3.1 BASF SE
11.3.2 Cryopak
11.3.3 Entropy Solutions
11.3.4 Honeywell International Inc.
11.3.5 Outlast Technologies LLC
11.3.6 Climator Sweden AB
11.3.7 Croda International Plc
11.3.8 Phase Change Material Products Limited
11.3.9 Phase Change Energy Solutions
11.3.10 Pluss Advanced Technologies Pvt. Ltd.
11.3.11 RGEES, LLC.
11.3.12 Rubitherm Technologies GmbH
11.3.13 Salca BV
11.3.14 SGL Group

List of Figures

​Figure 1: Global: Advanced Phase Change Materials Market: Major Drivers and Challenges
Figure 2: Global: Advanced Phase Change Materials Market: Sales Value (in Billion USD), 2019-2024
Figure 3: Global: Advanced Phase Change Materials Market: Breakup by Type (in %), 2024
Figure 4: Global: Advanced Phase Change Materials Market: Breakup by Form (in %), 2024
Figure 5: Global: Advanced Phase Change Materials Market: Breakup by Application (in %), 2024
Figure 6: Global: Advanced Phase Change Materials Market: Breakup by Region (in %), 2024
Figure 7: Global: Advanced Phase Change Materials Market Forecast: Sales Value (in Billion USD), 2025-2033
Figure 8: Global: Advanced Phase Change Materials Industry: SWOT Analysis
Figure 9: Global: Advanced Phase Change Materials Industry: Value Chain Analysis
Figure 10: Global: Advanced Phase Change Materials Industry: Porter’s Five Forces Analysis
Figure 11: Organic PCM (Paraffin Based) Manufacturing: Total Production Cost Breakup (in %)
Figure 12: Global: Advanced Phase Change Materials Market: Average Prices (in USD/Ton), 2019-2033
Figure 13: Global: Advanced Phase Change Materials (Organic PCM) Market: Sales Value (in Million USD), 2019 & 2024
Figure 14: Global: Advanced Phase Change Materials (Organic PCM) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 15: Global: Advanced Phase Change Materials (Inorganic PCM) Market: Sales Value (in Million USD), 2019 & 2024
Figure 16: Global: Advanced Phase Change Materials (Inorganic PCM) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 17: Global: Advanced Phase Change Materials (Bio-Based PCM) Market: Sales Value (in Million USD), 2019 & 2024
Figure 18: Global: Advanced Phase Change Materials (Bio-Based PCM) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 19: Global: Advanced Phase Change Materials (Encapsulated) Market: Sales Value (in Million USD), 2019 & 2024
Figure 20: Global: Advanced Phase Change Materials (Encapsulated) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 21: Global: Advanced Phase Change Materials (Non-Encapsulated) Market: Sales Value (in Million USD), 2019 & 2024
Figure 22: Global: Advanced Phase Change Materials (Non-Encapsulated) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 23: Global: Advanced Phase Change Materials (Application in Building and Construction) Market: Sales Value (in Million USD), 2019 & 2024
Figure 24: Global: Advanced Phase Change Materials (Application in Building and Construction) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 25: Global: Advanced Phase Change Materials (Application in Packaging) Market: Sales Value (in Million USD), 2019 & 2024
Figure 26: Global: Advanced Phase Change Materials (Application in Packaging) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 27: Global: Advanced Phase Change Materials (Application in HVAC) Market: Sales Value (in Million USD), 2019 & 2024
Figure 28: Global: Advanced Phase Change Materials (Application in HVAC) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 29: Global: Advanced Phase Change Materials (Application in Textiles) Market: Sales Value (in Million USD), 2019 & 2024
Figure 30: Global: Advanced Phase Change Materials (Application in Textiles) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 31: Global: Advanced Phase Change Materials (Application in Electronics) Market: Sales Value (in Million USD), 2019 & 2024
Figure 32: Global: Advanced Phase Change Materials (Application in Electronics) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 33: Global: Advanced Phase Change Materials (Other Applications) Market: Sales Value (in Million USD), 2019 & 2024
Figure 34: Global: Advanced Phase Change Materials (Other Applications) Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 35: Europe: Advanced Phase Change Materials Market: Sales Value (in Million USD), 2019 & 2024
Figure 36: Europe: Advanced Phase Change Materials Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 37: North America: Advanced Phase Change Materials Market: Sales Value (in Million USD), 2019 & 2024
Figure 38: North America: Advanced Phase Change Materials Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 39: Asia Pacific: Advanced Phase Change Materials Market: Sales Value (in Million USD), 2019 & 2024
Figure 40: Asia Pacific: Advanced Phase Change Materials Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 41: Middle East and Africa: Advanced Phase Change Materials Market: Sales Value (in Million USD), 2019 & 2024
Figure 42: Middle East and Africa: Advanced Phase Change Materials Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 43: Latin America: Advanced Phase Change Materials Market: Sales Value (in Million USD), 2019 & 2024
Figure 44: Latin America: Advanced Phase Change Materials Market Forecast: Sales Value (in Million USD), 2025-2033
Figure 45: Advanced Phase Change Materials Manufacturing: Detailed Process Flow

List of Tables

Table 1: Global: Advanced Phase Change Materials Market: Key Industry Highlights, 2024 and 2033
Table 2: Global: Advanced Phase Change Materials Market Forecast: Breakup by Type (in Million USD), 2025-2033
Table 3: Global: Advanced Phase Change Materials Market Forecast: Breakup by Form (in Million USD), 2025-2033
Table 4: Global: Advanced Phase Change Materials Market Forecast: Breakup by Application (in Million USD), 2025-2033
Table 5: Global: Advanced Phase Change Materials Market Forecast: Breakup by Region (in Million USD), 2025-2033
Table 6: Advanced Phase Change Materials Manufacturing: Raw Material Requirements
Table 7: Global: Advanced Phase Change Materials Market: Competitive Structure
Table 8: Global: Advanced Phase Change Materials Market: Key Players