Add to ORKGAt present laser printing has not been drawn many attention as a manufacturing technique. But it offers an interesting alternative to inkjet printing for many digital manufacturing applications. We first give a short comparison of both printing techniques before presenting an efficient production method for highly complex biochips - peptide arrays - based on laser printing. Peptide arrays are powerful tools for developing new medical substances as well as for diagnosis and therapy techniques. The new production method will enable the potential of peptide arrays to be effectively utilized for the first time
Optical biochips may incorporate both optical and microfluidic components as well as integrated ligh...
Bioprinting is an emerging field in regenerative medicine. Producing cell-laden, three-dimensional s...
Microcontact printing has become a versatile soft lithography technique used to produce molecular mi...
Peptide arrays promise to advance biomedical research by providing the opportunity of massive parall...
At present, electrophotography has not drawn much attention as a digital manufacturing technique. Bu...
The intent to solve biological and biomedical questions in high-throughput led to an immense interes...
Printing biology is our way to define a novel field employing material printing techniques generally...
A low-cost laser-based printing setup is presented, which allows for the spot-wise patterning of sur...
In this chapter, we discuss the state-of-the-art peptide array technologies, comparing the spot tech...
In this study, we report and compare two methods for fabricating patterns of streptavidin protein us...
Superfine printed structures featuring dimensions in the micro range increasingly gain importance pa...
Developing tools to reproduce and manipulate the cell micro-environment, including the location and ...
Herein we describe methods of light-based printing for cellular applications and biomimicry. Light b...
We present the use of pulsed lasers as patterning and printing tools for the end applications of mic...
© 2016, American Association of Pharmaceutical Scientists. Peptides and proteins represent a promiss...
Optical biochips may incorporate both optical and microfluidic components as well as integrated ligh...
Bioprinting is an emerging field in regenerative medicine. Producing cell-laden, three-dimensional s...
Microcontact printing has become a versatile soft lithography technique used to produce molecular mi...
Peptide arrays promise to advance biomedical research by providing the opportunity of massive parall...
At present, electrophotography has not drawn much attention as a digital manufacturing technique. Bu...
The intent to solve biological and biomedical questions in high-throughput led to an immense interes...
Printing biology is our way to define a novel field employing material printing techniques generally...
A low-cost laser-based printing setup is presented, which allows for the spot-wise patterning of sur...
In this chapter, we discuss the state-of-the-art peptide array technologies, comparing the spot tech...
In this study, we report and compare two methods for fabricating patterns of streptavidin protein us...
Superfine printed structures featuring dimensions in the micro range increasingly gain importance pa...
Developing tools to reproduce and manipulate the cell micro-environment, including the location and ...
Herein we describe methods of light-based printing for cellular applications and biomimicry. Light b...
We present the use of pulsed lasers as patterning and printing tools for the end applications of mic...
© 2016, American Association of Pharmaceutical Scientists. Peptides and proteins represent a promiss...
Optical biochips may incorporate both optical and microfluidic components as well as integrated ligh...
Bioprinting is an emerging field in regenerative medicine. Producing cell-laden, three-dimensional s...
Microcontact printing has become a versatile soft lithography technique used to produce molecular mi...