… Distinct differences can be observed in both the rate of interface migration and the types of defect morphologies. Here the GB is mobile and stacking fault tetrahedra (SFTs) frequently …
… on the defect production in 2D … defect production through this channel depends on the electronic structure of the material, and can be very high for 2D systems with high electron mobility …
… trapping at defects in the gate oxide. These defects can be vacancies, interstitials, or dangling bonds which can be positively or negatively charged. This trapping of mobile charges may …
… Record electron mobility in 2D materials has enabled multiple … radiation, on the other hand, could create new defects in the crystal lattice. If close to the quantum emitter, the new defects …
JJ Zhang, P Ding, YN Jin, SH Meng, XQ Zhao… - Chinese …, 2021 - iopscience.iop.org
… structure has excellent radiationtolerance. Mechanism … radiation fluence. According to the Coulomb scattering model of charged defects, the mobility is more sensitive to radiation…
… at the interface of Si/SiO 2 or in the defect states. Such trapped charges are responsible for the fading current gain reducing mobility, shifting threshold voltage, and increasing noise and …
Z Islam, AL Paoletta, AM Monterrosa, JD Schuler… - Microelectronics …, 2019 - Elsevier
… that carrier mobility and carrier density are radiationtolerant up … , defects and traps are generated even without radiation. … with the presence of radiation induced defects. We suggest that …
R Rasmidi, M Duinong, FP Chee - Radiation Physics and Chemistry, 2021 - Elsevier
… , strained bonds and other defects lead to trap states, and the mobility of the amorphous … This paper presents a review of ZnO tolerance and resistivity towards all kinds of radiation …
… guided synthesis of new alloys with targeted functionalities, including radiationtolerance. … energy landscape10,12,13 in these alloys that limits defectmobility (eg, unstable interstitial …