Add to ORKGSoft lithography offers great potential for the fabrication of 2D and 3D patterned structures using a variety of materials and patterns. It complements and extends conventional fabrication methods. This thesis is particularly focus on microcontact printing (μCP) as a method to create biological patterns on surfaces and also as a tool used in “in-situ” synthesis. Microcontact printing has unique features that make this technique very attractive: (i) it is simple to introduce in any laboratory, (ii) it is biocompatible, (iii) it can fabricate features below 100 nm, (iv) it is applicable to broad range of materials, (v) it is efficient and not expensive. The important feature is that stamp which is used for printing is flexible and can seal co...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Micro- and nanoscale protein patterns have been produced via a new contact printing method using a n...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
The aim of this thesis was establishing Soft Lithography, mainly Microcontact Printing, as a powerfu...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
This protocol provides an introduction to soft lithography—a collection of techniques based on print...
Microcontact printing (µCP) offers a simple and low-cost surface patterning methodology with high ve...
Microcontact printing (µCP) offers a simple and low-cost surface patterning methodology with high ve...
International audiencePatterning biomolecules at the micron or nano-scale presents a major challenge...
International audiencePatterning biomolecules at the micron or nano-scale presents a major challenge...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Micro- and nanoscale protein patterns have been produced via a new contact printing method using a n...
Soft lithography offers great potential for the fabrication of 2D and 3D patterned structures using ...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
The aim of this thesis was establishing Soft Lithography, mainly Microcontact Printing, as a powerfu...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
We describe a straightforward approach to the covalent immobilization of cytophilic proteins by micr...
This protocol provides an introduction to soft lithography—a collection of techniques based on print...
Microcontact printing (µCP) offers a simple and low-cost surface patterning methodology with high ve...
Microcontact printing (µCP) offers a simple and low-cost surface patterning methodology with high ve...
International audiencePatterning biomolecules at the micron or nano-scale presents a major challenge...
International audiencePatterning biomolecules at the micron or nano-scale presents a major challenge...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Microcontact printing (μCP) techniques are powerful tools to print molecules on reactive surfaces in...
Micro- and nanoscale protein patterns have been produced via a new contact printing method using a n...