Thermoplastic polyurethane conjugated antimony doped tin oxide nanocomposite for enhanced electrical and thermal conductivity

“…9c and Table S2 †). [21][22][23][24][26][27][28][29][48][49][50][51][52][53][54][55][56][57][58][59][60] Moreover, the 20 wt% load is smaller than those of most llers (25 wt%∼100 wt%).…”

“…7,10,11,13,16,20 Moreover, it should be noted that SnO 2 has outstanding thermo-physical properties and temperature/environmental stability and thus can be employed as a promising ceramicbased [21][22][23][24][25] and water-based 26,27 heat-conducting ller. Its thermal transfer arising from lattice vibration (phonons) can be improved by doping 22,28,29 or combining it with MWCNTs, 29 rGO, 27 Si 3 N 4 , 24 and Y 2 O 3 /ZrO 2 . 23 Nevertheless, the nanouids loaded with SnO 2 -based composites in previous research still exhibit a low thermal conductivity (0.025-1.24 W (m −1 K −1 )) (Table S2 †).…”

Morphology- and defect-coordinated prominent microwave absorption, thermal exhaustion, and electrical insulation in SnO₂@SnP₂O₇@Sn₂P₂O₇ hierarchical architectures

“…9c and Table S2 †). [21][22][23][24][26][27][28][29][48][49][50][51][52][53][54][55][56][57][58][59][60] Moreover, the 20 wt% load is smaller than those of most llers (25 wt%∼100 wt%).…”

“…7,10,11,13,16,20 Moreover, it should be noted that SnO 2 has outstanding thermo-physical properties and temperature/environmental stability and thus can be employed as a promising ceramicbased [21][22][23][24][25] and water-based 26,27 heat-conducting ller. Its thermal transfer arising from lattice vibration (phonons) can be improved by doping 22,28,29 or combining it with MWCNTs, 29 rGO, 27 Si 3 N 4 , 24 and Y 2 O 3 /ZrO 2 . 23 Nevertheless, the nanouids loaded with SnO 2 -based composites in previous research still exhibit a low thermal conductivity (0.025-1.24 W (m −1 K −1 )) (Table S2 †).…”

Morphology- and defect-coordinated prominent microwave absorption, thermal exhaustion, and electrical insulation in SnO₂@SnP₂O₇@Sn₂P₂O₇ hierarchical architectures

“…Moreover, incorporation of several fillers into the PU matrix can bring about the lower price of the final composite. In a study by Rehman et al, 122 PU was compounded with MWCNTs and antimony doped tin oxide (ATO) nanoparticles to create a doubly loaded nanocomposite. This research was aimed to concurrently improve CNT dispersion and decrease the final price of the nanocomposite.…”

A review on electrically conductive polyurethane nanocomposites: From principle to application

“…As a result, new energy storage systems for both large-scale grid storage and advanced portable energy devices must be developed. 6–11 The performance of these gadgets, as we all know, is highly dependent on the qualities of novel materials. Therefore, the development of various types of materials for use in electrochemical energy storage systems is critical.…”

MXenes as an emerging class of two-dimensional materials for advanced energy storage devices