Add to ORKG<p>Modern patterning and fabrication techniques provide powerful opportunities for the preparation of micro- and nanostructured objects with applications in fields ranging from drug delivery and bioimaging to organic based electronic devices and real time biochemical sensors. In this thesis we report a systematic study focused on the development of new unconventional patterning and fabrication techniques with applications in the preparation of functional micro- and nanostructured devices.</p><p>Catalytic microcontact printing is a powerful technique that offers a simple and effective methodology for patterning chemically-functionalized surfaces with sub-100 nm accuracy. By avoiding diffusive mechanisms of pattern replication it effectively ...
This PhD thesis addresses two major issues: 1) Fabricating nanometer-scale patterns of functional ma...
The preparation of well-defined molecular monolayers and their patterning on the microscale and nano...
The focus of my thesis is the development of an advanced methodology to create 3D nanostructures by ...
iv Modern patterning and fabrication techniques provide powerful opportunities for the preparation o...
Microcontact printing (mCP) and dip-pen nanolithography (DPN) are versatile techniques for the creat...
Molecules and nanomaterials can be assembled on surfaces in order to build complex structures and de...
Molecules and nanomaterials can be assembled on surfaces in order to build complex structures and de...
Self-assembly is an interesting process both for its biological relevance and because it provides a ...
A general method for patterning various functional inorganic nanomaterials on SiO(x)/Si substrates b...
This article describes the preparation of spherical Janus particles by microcontact printing. A set ...
This article describes the preparation of spherical Janus particles by microcontact printing. A set ...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
The aim of this thesis was establishing Soft Lithography, mainly Microcontact Printing, as a powerfu...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
Nanoimprint lithography (NIL) was used as a tool to pattern self-assembled monolayers (SAMs) on sili...
This PhD thesis addresses two major issues: 1) Fabricating nanometer-scale patterns of functional ma...
The preparation of well-defined molecular monolayers and their patterning on the microscale and nano...
The focus of my thesis is the development of an advanced methodology to create 3D nanostructures by ...
iv Modern patterning and fabrication techniques provide powerful opportunities for the preparation o...
Microcontact printing (mCP) and dip-pen nanolithography (DPN) are versatile techniques for the creat...
Molecules and nanomaterials can be assembled on surfaces in order to build complex structures and de...
Molecules and nanomaterials can be assembled on surfaces in order to build complex structures and de...
Self-assembly is an interesting process both for its biological relevance and because it provides a ...
A general method for patterning various functional inorganic nanomaterials on SiO(x)/Si substrates b...
This article describes the preparation of spherical Janus particles by microcontact printing. A set ...
This article describes the preparation of spherical Janus particles by microcontact printing. A set ...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
The aim of this thesis was establishing Soft Lithography, mainly Microcontact Printing, as a powerfu...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
Nanoimprint lithography (NIL) was used as a tool to pattern self-assembled monolayers (SAMs) on sili...
This PhD thesis addresses two major issues: 1) Fabricating nanometer-scale patterns of functional ma...
The preparation of well-defined molecular monolayers and their patterning on the microscale and nano...
The focus of my thesis is the development of an advanced methodology to create 3D nanostructures by ...