Add to ORKGWe have studied the Ge(112)-(4 ?? 1)-In reconstruction with scanning tunneling microscopy (STM). Based on our bias-dependent STM images and the characteristic electronic structure of stable submonolayer group-III-metal/group-IV-semiconductor interfaces, we propose an atomic model of this reconstruction for further investigation. The adsorption sites of In atoms are the same as In atoms' adsorption sites in the Si(112)-(7 ?? 1)-In reconstruction, but are different from the adsorption sites of Al and Ga atoms on the Si(112) surface. We suggest that this difference in adsorption sites is mainly due to the longer covalent bond length of In atoms. We further propose that, due to the smaller misfit, Al and Ga atoms may form longer nano-wires...
Apparently, silicon - a group-IV semiconductor is the basis of the multi-billion dollar industry of ...
The structure of the Na/Ge(111) surface has been studied using scanning tunneling microscopy. Na ato...
The atomic structure of the Ge(313)5x1 surface is studied in the present paper. On the basis of high...
用扫描隧道显微镜(STM)研究了亚单层In原子引起的Ge(112)-(4×1)-In表面重构.结合随偏压极性不同而显著不同的STM图象和相应的"原子图象&q...
We have studied the surface reconstructions of the In/Ge(111) system by means of scanning tunneling ...
The superstructures formed by low coverages of In adsorbed on Ge(001) have been studied using scanni...
We have studied the clean and well-annealed Ge(113) surface with scanning tunneling microscopy (STM)...
Based on scanning tunneling microscopy and surface X-ray diffraction, we propose a complex structura...
Based on scanning tunneling microscopy and surface X-ray diffraction, we propose a complex structura...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
Nanostructures, namely materials in the nanometer or sub-nanometer scales, can possess completely di...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
The (111) surfaces of Si and Ge were studied by scanning tunneling microscopy (STM) and photoelectro...
The structure of the Na/Ge(111) surface has been studied using scanning tunneling microscopy. Na ato...
Apparently, silicon - a group-IV semiconductor is the basis of the multi-billion dollar industry of ...
The structure of the Na/Ge(111) surface has been studied using scanning tunneling microscopy. Na ato...
The atomic structure of the Ge(313)5x1 surface is studied in the present paper. On the basis of high...
用扫描隧道显微镜(STM)研究了亚单层In原子引起的Ge(112)-(4×1)-In表面重构.结合随偏压极性不同而显著不同的STM图象和相应的"原子图象&q...
We have studied the surface reconstructions of the In/Ge(111) system by means of scanning tunneling ...
The superstructures formed by low coverages of In adsorbed on Ge(001) have been studied using scanni...
We have studied the clean and well-annealed Ge(113) surface with scanning tunneling microscopy (STM)...
Based on scanning tunneling microscopy and surface X-ray diffraction, we propose a complex structura...
Based on scanning tunneling microscopy and surface X-ray diffraction, we propose a complex structura...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
Nanostructures, namely materials in the nanometer or sub-nanometer scales, can possess completely di...
The Ag/Ge(111) surface together with Ag/Si(111) constitutes a set of surfaces that is ideally suit...
The (111) surfaces of Si and Ge were studied by scanning tunneling microscopy (STM) and photoelectro...
The structure of the Na/Ge(111) surface has been studied using scanning tunneling microscopy. Na ato...
Apparently, silicon - a group-IV semiconductor is the basis of the multi-billion dollar industry of ...
The structure of the Na/Ge(111) surface has been studied using scanning tunneling microscopy. Na ato...
The atomic structure of the Ge(313)5x1 surface is studied in the present paper. On the basis of high...