Stability and electronic properties of XO (X= Be, Mg, Zn, Cd) biphenylene and graphenylene networks: A first-principles study
YZ Abdullahi, F Ersan - Applied Physics Letters, 2023 - pubs.aip.org
The ultrawide bandgap semiconducting property of materials is key to the development of
advanced optoelectronic nanodevices with potential applications in flexible and transparent …
advanced optoelectronic nanodevices with potential applications in flexible and transparent …
Unveiling the adsorption, activation and reduction of CO2 via inorganic, biphenylene akin Pt-doped ZnMgO2
The performance of numerous existing two-dimensional (2D) materials as CO 2 sequestrator
remains suboptimal due to their limited capacity to adsorb and subsequently activate CO 2 …
remains suboptimal due to their limited capacity to adsorb and subsequently activate CO 2 …
Stability, electronic and optical properties of buckled XO (X= Ge, Cu) graphenylene monolayers: A first-principles study
The demand for sustainable semiconducting devices that can be used in various
applications necessitates the development of revolutionary materials with multifunctional …
applications necessitates the development of revolutionary materials with multifunctional …
Characterization of silicon carbide biphenylene network through -BSE calculations
Two-dimensional (2D) silicon carbide stands out among 2D materials, primarily due to its
notable band gap, unlike its carbon-based counterparts. However, the binary nature and …
notable band gap, unlike its carbon-based counterparts. However, the binary nature and …
New stable inorganic BX (X= P, As, Sb) biphenylene and graphenylene monolayers: A first-principles investigation
YZ Abdullahi, F Ersan - Computational Materials Science, 2024 - Elsevier
Abstract Porous two-dimensional (2D) materials with semiconducting property are promising
candidates for a variety of multifunctional energy harvesting applications. Motivated by the …
candidates for a variety of multifunctional energy harvesting applications. Motivated by the …
Ultra-thin Carbon Biphenylene Network as an Anisotropic Thermoelectric Material with High Temperature Stability Under Mechanical Strain
Carbon biphenylene network (C-BPN), which is an ultra-thin material consisting of carbon
atoms arranged in square-hexagonal-octagonal (4-6-8) periodic rings, has intriguing …
atoms arranged in square-hexagonal-octagonal (4-6-8) periodic rings, has intriguing …