Preparation and characterization of structurally variable inorganic nanofibrous mats with large surface area for intelligent temperature regulation textiles

“…Notably, no distinct changes were observed in the phase change temperatures and phase change enthalpies of FAP3-PPy after 100 cycles. For instance, both the melting and the crystallization enthalpy values after 100 times thermal cycles were almost equivalent to those of the first cycle within the measurement uncertainties (Table 2), indicating the favorable thermal storage stability of as-prepared nanofibrous mats, which is a must for long-term use as PCM [62,63].…”

Flexible and Conductive Nanofiber Textiles for Leakage-Free Electro-Thermal Energy Conversion and Storage

“…Notably, no distinct changes were observed in the phase change temperatures and phase change enthalpies of FAP3-PPy after 100 cycles. For instance, both the melting and the crystallization enthalpy values after 100 times thermal cycles were almost equivalent to those of the first cycle within the measurement uncertainties (Table 2), indicating the favorable thermal storage stability of as-prepared nanofibrous mats, which is a must for long-term use as PCM [62,63].…”

Flexible and Conductive Nanofiber Textiles for Leakage-Free Electro-Thermal Energy Conversion and Storage

“…Experimental results demonstrate that PCMF/PDMS textiles heated and cooled more slowly than polyester gloves in the environments of 50°C and 10°C. Zhang et al 114 obtained structurally variable TiO 2 /SiO 2 /C nanofiber mats by microemulsion electrospinning method. After calcination process, the TiO 2 /SiO 2 /C nanofiber mats became the substrate material of the FSPCM.…”

Thermal properties and applications of form‐stable phase change materials for thermal energy storage and thermal management: A review

Flexible and conductive nanofiber textiles for leakage-free electro-thermal energy conversion and storage