This paper describes the main protocols that are used for fabricating microfluidic devices from glass and silicon. Methods for micropatterning glass and silicon are surveyed, and their limitations are discussed. Bonding methods that can be used for joining these materials are summarized and key process parameters are indicated. The paper also outlines techniques for forming electrical connections between microfluidic devices and external circuits. A framework is proposed for the synthesis of a complete glass/silicon device fabrication flow.Published versio
A simple and rapid microfabrication method for glass-based microfluidic chips is presented. In this ...
This paper presents a method for the fabrication of integrated porous silica layers in microfluidic ...
Microfluidic devices currently play an important role in many biological, chemical, and engineering ...
This paper describes the main protocols that are used for fabricating microfluidic devices from glas...
This chapter explores the micromachining of fluidic structures in silicon, and presents several exam...
Microfluidics has become recognized as a powerful platform technology with a wide range of applicati...
Glass microfabrication process was studied for realizing microfluidic device for a preparation of na...
We report here on the results of experiments concerning particular bonding processes potentially use...
A new, versatile architecture is presented for microfluidic devices made entirely from glass, for us...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
Compared with polymer-based biochips, such as polydimethylsiloxane (PDMS), glass based chips have dr...
This paper presents processes for glass micromachining, including sandblast, wet etching, reactive i...
AbstractWe described the glass-to-glass anodic bonding through thin p-Si layer. The applied here p-S...
Through manipulating fluids using microfabricated channeland chamber structures, microfluidics is a ...
For many years, different methods for bonding glass borofloat substrates have been investigated1, in...
A simple and rapid microfabrication method for glass-based microfluidic chips is presented. In this ...
This paper presents a method for the fabrication of integrated porous silica layers in microfluidic ...
Microfluidic devices currently play an important role in many biological, chemical, and engineering ...
This paper describes the main protocols that are used for fabricating microfluidic devices from glas...
This chapter explores the micromachining of fluidic structures in silicon, and presents several exam...
Microfluidics has become recognized as a powerful platform technology with a wide range of applicati...
Glass microfabrication process was studied for realizing microfluidic device for a preparation of na...
We report here on the results of experiments concerning particular bonding processes potentially use...
A new, versatile architecture is presented for microfluidic devices made entirely from glass, for us...
This thesis introduces important improvements in fabrication of microfluidic devices on silicon and ...
Compared with polymer-based biochips, such as polydimethylsiloxane (PDMS), glass based chips have dr...
This paper presents processes for glass micromachining, including sandblast, wet etching, reactive i...
AbstractWe described the glass-to-glass anodic bonding through thin p-Si layer. The applied here p-S...
Through manipulating fluids using microfabricated channeland chamber structures, microfluidics is a ...
For many years, different methods for bonding glass borofloat substrates have been investigated1, in...
A simple and rapid microfabrication method for glass-based microfluidic chips is presented. In this ...
This paper presents a method for the fabrication of integrated porous silica layers in microfluidic ...
Microfluidic devices currently play an important role in many biological, chemical, and engineering ...