Against the backdrop of accelerating global urbanization and Industry 4.0 advancement, the demand for energy from data centers, smart factories, and modern buildings continues to rise, with cooling and heat dissipation emerging as a critical component of energy consumption. Statistics indicate that the building sector accounts for 40% of global carbon emissions, while the energy consumption and cooling demands in the industrial sector are equally substantial. Traditional cooling methods rely on high-energy-consuming equipment and greenhouse gas refrigerants, exacerbating energy challenges and increasing carbon footprints. Promoting a shift toward low-carbon, efficient, and intelligent cooling solutions in the industrial and building sectors has become an imperative choice for achieving sustainable development.

In this context, passive radiative cooling technology has demonstrated immense potential. By engineering the spectral properties of material surfaces to achieve high solar reflectance and efficient infrared thermal radiation, this technology enables continuous cooling without external energy input, offering a zero-carbon pathway for industrial equipment heat dissipation and building energy efficiency. When this green material technology is deeply integrated with artificial intelligence, its effectiveness and application boundaries are revolutionized.

As an innovative leader in this technological field, REAL NEW MATERIAL SCIENCE & TECHNOLOGY COMPANY LIMITED is committed to combining AI technology with radiative cooling material research and development, building a comprehensive "material + data + service" solution chain. The company leverages AI to empower new material development, using machine learning to accelerate the screening and performance optimization of material formulations. Through intelligent sensing and IoT systems, it enables real-time monitoring and dynamic adjustment of the thermal performance of materials in practical application scenarios, thereby providing customers with predictable and verifiable energy-saving and carbon reduction outcomes.

In the industrial sector, REAL NEW MATERIAL SCIENCE & TECHNOLOGY COMPANY LIMITED’s radiative cooling materials can be widely applied to the exterior surfaces of data centers, substations, energy storage equipment, and various industrial robots. In the form of coatings or films, these materials effectively lower equipment operating temperatures, reduce the energy consumption of active cooling systems such as air conditioning, and synergize with existing industrial systems like equipment lubrication and thermal management to enhance overall energy efficiency and operational reliability.

In the building sector, these materials can be applied to building exteriors and roofs, significantly reducing indoor thermal loads and decreasing the duration and energy consumption of air conditioning use. By adopting a "product-as-a-service" model, REAL NEW MATERIAL SCIENCE & TECHNOLOGY COMPANY LIMITED provides customers with full-cycle management—from material application to energy efficiency monitoring. Coupled with intelligent temperature control systems, it enables adaptive regulation of building heat dissipation, supporting hotels, commercial complexes, industrial parks, and others in achieving green operations and ESG goals.

Looking ahead, as AI algorithms continue to optimize and material performance iteratively improves, radiative cooling technology will play a more systematic role in industrial heat dissipation, building energy efficiency, and urban thermal management. REAL NEW MATERIAL SCIENCE & TECHNOLOGY COMPANY LIMITED will continue to advance the fusion of AI and green materials, collaborating with industry partners to build efficient, low-carbon, and intelligent thermal management systems. This effort will provide reliable technological support and industrialization pathways to achieve the "dual carbon" goals in the industrial and building sectors.