Your search keyword '"Mostafa Youssef"' showing total 3 results

1. Complex Oxides under Simulated Electric Field: Determinants of Defect Polarization in ABO3 Perovskites

Author

Yen‐Ting Chi, Krystyn J. Van Vliet, Mostafa Youssef, and Bilge Yildiz

Subjects

density functional theory, perovskites, point defects, polarization, strain, Science

Abstract

Abstract Polarization of ionic and electronic defects in response to high electric fields plays an essential role in determining properties of materials in applications such as memristive devices. However, isolating the polarization response of individual defects has been challenging for both models and measurements. Here the authors quantify the nonlinear dielectric response of neutral oxygen vacancies, comprised of strongly localized electrons at an oxygen vacancy site, in perovskite oxides of the form ABO3. Their approach implements a computationally efficient local Hubbard U correction in density functional theory simulations. These calculations indicate that the electric dipole moment of this defect is correlated positively with the lattice volume, which they varied by elastic strain and by A‐site cation species. In addition, the dipole of the neutral oxygen vacancy under electric field increases with increasing reducibility of the B‐site cation. The predicted relationship among point defect polarization, mechanical strain, and transition metal chemistry provides insights for the properties of memristive materials and devices under high electric fields.

Published

2022

2. Association between oral clefts and periodontal clinical measures: A meta‐analysis

Author

Cynthia L. Wong, Tamer Marzouk, Hans Malmstrom, Erin T. Shope, Alexandra Tsigarida, Christy M McKinney, Hongyue Wang, Lisa DeLucia, Ritu M. Shah, and Mostafa Youssef

Subjects

medicine.medical_specialty, Plaque index, Gingival and periodontal pocket, business.industry, Cleft Lip, Dental Plaque Index, Dental Plaque, Gingivitis, Dental care, Cleft Palate, Gingival index, Clinical attachment loss, Meta-analysis, Internal medicine, medicine, Humans, Observational study, Clinical significance, business, General Dentistry, Periodontal Diseases

Abstract

Purpose To conduct a systematic review to evaluate the clinical parameters for periodontal diseases in individuals with cleft lip and/or palate (CL/P). Methods The authors searched six indexed databases without language restriction through July 2021. The eligibility criteria were observational studies that compared the periodontal clinical measures of individuals with CL/P to those without CL/P. Meta-analysis was conducted using random-effects models with inverse variance weighting. Results The literature search generated 1277 records, and 40 full-text articles were reviewed. Twenty-three studies comprising 3,235 individuals from 4 continents fulfilled our selection criteria. The meta-analysis revealed significant difference in mean plaque index scores (MD = 0.31, 95%CI = 0.22, 0.41), gingival index scores (MD = 0.50, 95%CI = 0.24, 0.77) and periodontal pocket depth (MD = 0.64, 95%CI = 0.12, 1.16) between individuals with and without CL/P. A slight increase in clinical attachment loss was detected among individuals with CL/P; however, such an increase may have little clinical significance. Conclusions As age is positively related to periodontal disease progression, and individuals with CL/P are more likely to present with more plaque accumulation and gingival inflammation, clinicians should reinforce preventive dental care from an early age.

Published

2022

3. Complex Oxides under Simulated Electric Field: Determinants of Defect Polarization in AB O 3 Perovskites

Author

Yen‐Ting Chi, Krystyn J. Van Vliet, Mostafa Youssef, and Bilge Yildiz

Subjects

polarization, Science, General Chemical Engineering, perovskites, General Engineering, General Physics and Astronomy, Medicine (miscellaneous), Biochemistry, Genetics and Molecular Biology (miscellaneous), Condensed Matter::Materials Science, strain, point defects, General Materials Science, density functional theory

Abstract

Polarization of ionic and electronic defects in response to high electric fields plays an essential role in determining properties of materials in applications such as memristive devices. However, isolating the polarization response of individual defects has been challenging for both models and measurements. Here the authors quantify the nonlinear dielectric response of neutral oxygen vacancies, comprised of strongly localized electrons at an oxygen vacancy site, in perovskite oxides of the form ABO3. Their approach implements a computationally efficient local Hubbard U correction in density functional theory simulations. These calculations indicate that the electric dipole moment of this defect is correlated positively with the lattice volume, which they varied by elastic strain and by A‐site cation species. In addition, the dipole of the neutral oxygen vacancy under electric field increases with increasing reducibility of the B‐site cation. The predicted relationship among point defect polarization, mechanical strain, and transition metal chemistry provides insights for the properties of memristive materials and devices under high electric fields.

Published

2021