Add to ORKGWe demonstrated epitaxial growth of magnesium oxide (MgO) on silicon (Si) substrate with cubic on cubic structure [MgO(001) // Si(001) and MgO(100) // Si(100)]. Epitaxial films were prepared by using pulsed laser deposition method, and with dependent on deposition conditions of oxygen partial pressure and substrate temperature, the lattice constants of MgO decreased along both surface normal and in-plane directions. To support the facts of (1) constriction of lattice constants and (2) cubic on cubic growth, we show (1) optimal lattice constants with defects in crystal structure, (2) domain mismatch between MgO and Si instead of lattice mismatch, and (3) stability of MgO crystal on the surface of Si substrate
Functional oxides are materials with interesting properties for electronic applications. In this the...
Abstract: In this work, we study on the effects of the oxygen pressure on the structural and crystal...
We report on the structural evolution versus thickness of MgO thin films grown epitaxially on Mo(001...
We demonstrated epitaxial growth of magnesium oxide (MgO) on a silicon (Si) substrate with cubic on ...
Epitaxial magnesium oxide (MgO) thin films prepared on Si(0 0 1) substrates revealed the contraction...
Selective growth of singly oriented (110)-, (100)-, and (111)-MgO films on Si(100)substrates were ob...
This work studies the deposition of epitaxial MgO thin films with thickness of 40 nm deposited on ba...
Microstructure of magnesium oxide films radio frequency (rf) sputtered on silicon substrates at var...
Using a combination of reciprocal and real-space techniques, the structural evolution and its effect...
MgO has been deposited on r-plane cut sapphire single crystalline substrate at temperatures between ...
MgO is used as an optical isolation layer for waveguides epitaxially grown on Si. Crystalline perfec...
Selective growth of single-oriented (110), (100) and (111) MgO films on Si(100) substrates without b...
In this article, the deposition and characterization of amorphous MgO films grown on Si (001) using ...
Abstract: MgZnO has attracted a lot of attention for flexible device. In the flexible substrate, th...
MgO thin films were epitaxially grown on Al2O3(0001) substrates using metalorganic chemical vapor de...
Functional oxides are materials with interesting properties for electronic applications. In this the...
Abstract: In this work, we study on the effects of the oxygen pressure on the structural and crystal...
We report on the structural evolution versus thickness of MgO thin films grown epitaxially on Mo(001...
We demonstrated epitaxial growth of magnesium oxide (MgO) on a silicon (Si) substrate with cubic on ...
Epitaxial magnesium oxide (MgO) thin films prepared on Si(0 0 1) substrates revealed the contraction...
Selective growth of singly oriented (110)-, (100)-, and (111)-MgO films on Si(100)substrates were ob...
This work studies the deposition of epitaxial MgO thin films with thickness of 40 nm deposited on ba...
Microstructure of magnesium oxide films radio frequency (rf) sputtered on silicon substrates at var...
Using a combination of reciprocal and real-space techniques, the structural evolution and its effect...
MgO has been deposited on r-plane cut sapphire single crystalline substrate at temperatures between ...
MgO is used as an optical isolation layer for waveguides epitaxially grown on Si. Crystalline perfec...
Selective growth of single-oriented (110), (100) and (111) MgO films on Si(100) substrates without b...
In this article, the deposition and characterization of amorphous MgO films grown on Si (001) using ...
Abstract: MgZnO has attracted a lot of attention for flexible device. In the flexible substrate, th...
MgO thin films were epitaxially grown on Al2O3(0001) substrates using metalorganic chemical vapor de...
Functional oxides are materials with interesting properties for electronic applications. In this the...
Abstract: In this work, we study on the effects of the oxygen pressure on the structural and crystal...
We report on the structural evolution versus thickness of MgO thin films grown epitaxially on Mo(001...