Thermal performance of novel form-stable disodium hydrogen phosphate dodecahydrate-based composite phase change materials for building thermal energy storage

“…Latent heat (LH) TES using phase change materials (PCMs) is a technique with numerous uses in solar thermal, heat transportation, buildings [3,4], heating ventilation and air-conditioning (HVAC), etc. [2,5] Among the different types of PCMs according to their phase change, solid-liquid PCMs are largely used due to their practical feasibility.…”

WITHDRAWN: Development and thermophysical investigation of stable fatty acid/SiO2 composite microcapsules through interfacial polycondensation

“…Latent heat (LH) TES using phase change materials (PCMs) is a technique with numerous uses in solar thermal, heat transportation, buildings [3,4], heating ventilation and air-conditioning (HVAC), etc. [2,5] Among the different types of PCMs according to their phase change, solid-liquid PCMs are largely used due to their practical feasibility.…”

WITHDRAWN: Development and thermophysical investigation of stable fatty acid/SiO2 composite microcapsules through interfacial polycondensation

“…Although the body can spontaneously modulate its temperature, extremely hot or cold working conditions can disrupt the thermal balance and even pose a threat to human health. Currently, individual thermal management has been seen as an effective alternative to centralized space cooling/heating methods with high energy consumption due to its convenience and sustainability. , At the same time, personal thermal management technology is expected to achieve infrared stealth by controlling the surface temperature of the human body to suppress infrared scattering, which is essential to the advancement of the defense industry and novel military devices. − Composite materials based on phase change materials (PCMs) have been proving to have great potential in the field of thermal management due to their thermal energy storage capacity and the reversibility of thermal cycles. − However, these previously developed PCM composites have significant practical limitations in terms of fluid leakage and strong mechanical rigidity, making them unavailable for wearable thermal management. − …”

Highly Stretchable Ti₃C₂T_x MXene-Integrated Phase Change Films for Solar-Thermal Harvesting and Infrared Stealth

“…Phase change materials (PCMs) are a crucial component of thermal energy management, as they can absorb and release large amounts of heat during phase transitions, rendering them well-suited for a wide range of industrial and residential applications. 5–9 Depending on the specific conditions, these so-called “smart energy management materials” can store energy through melting/solidifying and release it with a minimal loss. 10–13 PCMs can be classified into solid–gas, liquid–gas, solid–solid, and solid–liquid systems based on the type of phase transition.…”

2D nanomaterial aerogels integrated with phase change materials: a comprehensive review