Electric‐field assisted ultrafast synthesis of Ti₃SiC₂ MAX phase

Abstract: A galaxy of new two-dimensional (2D) transition metal carbides, nitrides, and carbonitrides (MXenes) have outperformed other 2D nanomaterials in numerous promising applications due to their extraordinary properties. However, the synthesis of MAX phase is pertinent as it is the only precursor for the development of 2D MXenes. As many conventional MAX phase synthesis procedures are complex, time-and power consuming, we have introduced a novel electric-fieldassisted flash sintering technique for a rapid synthesis… Show more

“…An applied electric field has the capability to alter the system's configuration by modifying the length of bonds [30]. On one hand, as the strength of the EEF increases, the 6C-12I bond experiences a gradual increase in length, whereas the 2C-7H bond undergoes a continuous reduction in length, as illustrated in figure 2.…”

Study on the dissociation properties and spectra of iodobenzene under external electric field

“…An applied electric field has the capability to alter the system's configuration by modifying the length of bonds [30]. On one hand, as the strength of the EEF increases, the 6C-12I bond experiences a gradual increase in length, whereas the 2C-7H bond undergoes a continuous reduction in length, as illustrated in figure 2.…”

Study on the dissociation properties and spectra of iodobenzene under external electric field

Flash Joule Heating-Boro/Carbothermal Reduction (FJH-BCTR): An approach for the instantaneous synthesis of transition metal diborides

Investigation on the role of Nb in strengthening Ti3SiC2/Ti25Zr25Ni25Cu25 + Nb/Ti60 brazed joint