Add to ORKGThin gold films are grown on Si and Ge substrates by galvanic displacement from fluoride-containing solutions. The physical and chemical properties of the metal-semiconductor interface are characterized by a variety of techniques, including photoelectron spectroscopy, atomic force microscopy, and electron microscopy. Displaced gold films exhibit strong adhesion to germanium substrates but not to silicon. This behavior is explained by the presence of a chemical bond at the Au-Ge interface, which is not observed in the Au-Si system. The implications of these findings for semiconductor metallization by galvanic displacement methods are discussed
Thin metal films on polymer substrates are of interest for flexible electronic applications and ofte...
Room-temperature liquid metals such as GaInSn or EGaIn present the most attractive properties for so...
By using surface resistance measurement and Auger Electron Spectroscopy, the interdiffusion behavior...
Thin gold films are grown on Si and Ge substrates by galvanic displacement from fluoride-containing ...
There are several microelectronic processes which are based on gold due to its unique physical and ...
Herein, we report galvanic displacement of metal nanoparticles and films onto single-crystalline GaA...
The deposition of metals on semiconductors encompasses a broad range of technologically important pr...
Sensors are the devices which are composed of an active sensing material with a signal transducer. ...
This work focuses on the synthesis and interfacial characterization of gold nanostructureson silicon...
Thin films of gold deposited on a silicon substrate were used as electrical sensors of mercury vapou...
Metallization of semiconductors surfaces via galvanic displacement has proved its valor in all the m...
The performance and reliability of semiconductor devices depend critically on the electrical quality...
Galvanic replacement represents a highly significant process for the fabrication of bimetallic mater...
Thin metal films on polymer substrates are of interest for flexible electronic applications and ofte...
Room-temperature liquid metals such as GaInSn or EGaIn present the most attractive properties for so...
By using surface resistance measurement and Auger Electron Spectroscopy, the interdiffusion behavior...
Thin gold films are grown on Si and Ge substrates by galvanic displacement from fluoride-containing ...
There are several microelectronic processes which are based on gold due to its unique physical and ...
Herein, we report galvanic displacement of metal nanoparticles and films onto single-crystalline GaA...
The deposition of metals on semiconductors encompasses a broad range of technologically important pr...
Sensors are the devices which are composed of an active sensing material with a signal transducer. ...
This work focuses on the synthesis and interfacial characterization of gold nanostructureson silicon...
Thin films of gold deposited on a silicon substrate were used as electrical sensors of mercury vapou...
Metallization of semiconductors surfaces via galvanic displacement has proved its valor in all the m...
The performance and reliability of semiconductor devices depend critically on the electrical quality...
Galvanic replacement represents a highly significant process for the fabrication of bimetallic mater...
Thin metal films on polymer substrates are of interest for flexible electronic applications and ofte...
Room-temperature liquid metals such as GaInSn or EGaIn present the most attractive properties for so...
By using surface resistance measurement and Auger Electron Spectroscopy, the interdiffusion behavior...