Integratingphasechangematerials(PCMs) inbuildingapplications holds promise for significantly improvingenergyefficiencyby effectively storing and releasing heat during heating and cooling cycles.
Energysecurity and environmental concerns are driving a lot of research projects to improveenergyefficiency, make theenergyinfrastructure less stressed, and cut carbon dioxide (CO2) emissions. One research goal is to increase the effectiveness ofbuildingheating applications using cutting-edge technologies like solar collectors and heat pumps. Another study technique usesphasechange...
Phasechangematerials(PCMs) have emerged as a key enabler of high-performance, low-carbonbuildingsthrough latent heat-based thermalenergystorage. This paper presents a systematic and critical synthesis of advances in PCM technologies forbuildingapplications published between 2022 and 2025, analyzing over 300 peer-reviewed studies to evaluate thermal performance, economic viability ...

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Abstract.Phasechangematerials(PCM) represent an innovative technology with high potential for increasing theenergyefficiencyofbuildings. Thesematerialscan reversiblychangetheir state of matter at a specific temperature, effectively absorbing or releasing a large amount of latent heat duringphasechanges. Thanks to this property, PCMs can effectively regulate the indoor temperature ...
ConclusionPhase-changematerialsoffer a powerful pathway to improvingbuildingefficiencyby reducingenergyuse, stabilising indoor temperatures, and supporting long-term sustainability goals. Their effectiveness depends on selecting the rightmaterial, matching it to local climate conditions, and integrating it intelligently into thebuildingenvelope. As regulations tighten and ...

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PCMs present a promising solution for enhancingenergyefficiencyinbuildingconstruction. By leveraging their uniquephase-changeproperties,buildingscan maintain a stable indoor climate while reducingenergyconsumption and CO₂ emissions.
To reduce the amount ofenergyusedinbuildingsultimately, it is essential to designbuildingenvelopes that areenergy-efficient.

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Learn howphasechangematerialsbuildingdesign improves temperature regulation,energyefficiency, and comfort in sustainable projects.