Add to ORKGMetallic thin films consisting of separated nanostructures are fabricated by evaporative glancing angle deposition at room temperature. The columnar microstructure of the Ti and Cr columns is investigated by high resolution transmission electron microscopy and selective area electron diffraction. The morphology of the sculptured metallic films is studied by scanning electron microscopy. It is found that tilted Ti and Cr columns grow with a single crystalline morphology, while upright Cr columns are polycrystalline. Further, the influence of continuous substrate rotation on the shaping of Al, Ti, Cr and Mo nanostructures is studied with view to surface diffusion and the shadowing effect. It is observed that sculptured metallic thin films dep...
It is demonstrated that, besides classical nanocolumnar arrays, the oblique angle geometry induces t...
Thin film growth from the vapor phase has for a long time intrigued researchers endeavouring to unra...
Glancing angle deposition (GLAD) is a thin film deposition technique capable of fabricating columnar...
The present work represents a systematical study of the growth of columnar, metallic thin films depo...
The influence of one dimensional substrate patterns on the nanocolumnar growth of thin films deposit...
Metals with a wide range of melting points are deposited by electron beam evaporation under oblique ...
The growth of nanostructured physical vapor deposited thin films at oblique angles is becoming a hot...
Growing highly crystalline nanowires over large substrate areas remains an ambiguous task nowadays. ...
To sum up, we have shown here that nanocolumns of various materials can be grown successfully onto v...
Physical vapor deposition is a fundamental tool to create thin films for countless applications. Dep...
The growth of Ti thin films by the magnetron sputtering technique at oblique angles and at room temp...
The objective of this study is to examine the sudden drop in properties of aluminum, titanium and ch...
Investigation and characterization of nano-sculptured thin films are presented in thesis. Investigat...
Chromium thin films exhibiting a columnar microstructure have been prepared by dc magnetron sputter...
We experimentally analyze different growth regimes of Ti thin films associated to the existence of k...
It is demonstrated that, besides classical nanocolumnar arrays, the oblique angle geometry induces t...
Thin film growth from the vapor phase has for a long time intrigued researchers endeavouring to unra...
Glancing angle deposition (GLAD) is a thin film deposition technique capable of fabricating columnar...
The present work represents a systematical study of the growth of columnar, metallic thin films depo...
The influence of one dimensional substrate patterns on the nanocolumnar growth of thin films deposit...
Metals with a wide range of melting points are deposited by electron beam evaporation under oblique ...
The growth of nanostructured physical vapor deposited thin films at oblique angles is becoming a hot...
Growing highly crystalline nanowires over large substrate areas remains an ambiguous task nowadays. ...
To sum up, we have shown here that nanocolumns of various materials can be grown successfully onto v...
Physical vapor deposition is a fundamental tool to create thin films for countless applications. Dep...
The growth of Ti thin films by the magnetron sputtering technique at oblique angles and at room temp...
The objective of this study is to examine the sudden drop in properties of aluminum, titanium and ch...
Investigation and characterization of nano-sculptured thin films are presented in thesis. Investigat...
Chromium thin films exhibiting a columnar microstructure have been prepared by dc magnetron sputter...
We experimentally analyze different growth regimes of Ti thin films associated to the existence of k...
It is demonstrated that, besides classical nanocolumnar arrays, the oblique angle geometry induces t...
Thin film growth from the vapor phase has for a long time intrigued researchers endeavouring to unra...
Glancing angle deposition (GLAD) is a thin film deposition technique capable of fabricating columnar...