A micro-level technique so-called “microfluidic technology or simply microfluidic” has gained a special place as a powerful tool in bioengineering and biomedical engineering research due to its core advantages in modern science and engineering. Microfluidic technology has played a substantial role in numerous applications with special reference to bioscience, biomedical and biotechnological research. It has facilitated noteworthy development in various sectors of bio-research and upsurges the efficacy of research at the molecular level, in recent years. Microfluidic technology can manipulate sample volumes with precise control outside cellular microenvironment, at micro-level. Thus, enable the reduction of discrepancies between ...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Conventional culture systems are often limited in their ability to regulate the growth and different...
The underlying physical properties of microfluidic tools have led to new biological insights through...
A micro-level technique so-called “microfluidic technology or simply microfluidic” has g...
Bahnemann J, Grünberger A. Microfluidics in Biotechnology: Overview and Status Quo. Advances in Bio...
Ortseifen V, Viefhues M, Wobbe L, Grünberger A. Microfluidics for Biotechnology: Bridging Gaps to Fo...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Recent advances in applied physics and chemistry have led to the development of novel microfluidic s...
Microfluidics is an emerging new interdisciplinary field that deals with the manipulation of fluids ...
Microfluidic techniques allow precise control of fluids and particles at the nanoliter scale and fac...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
We introduce microfluidics technologies as a key foundational technology for synthetic biology exper...
The use of microfluidic bioreactor platforms for cell culturing holds considerable promise for a ran...
Biomicrofluidics is an active area of research at present, exploring the synergy of microfluidics wi...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Conventional culture systems are often limited in their ability to regulate the growth and different...
The underlying physical properties of microfluidic tools have led to new biological insights through...
A micro-level technique so-called “microfluidic technology or simply microfluidic” has g...
Bahnemann J, Grünberger A. Microfluidics in Biotechnology: Overview and Status Quo. Advances in Bio...
Ortseifen V, Viefhues M, Wobbe L, Grünberger A. Microfluidics for Biotechnology: Bridging Gaps to Fo...
The use of microfluidics has transformed research in cell biology. Microfluidics manipulates fluids ...
Recent advances in applied physics and chemistry have led to the development of novel microfluidic s...
Microfluidics is an emerging new interdisciplinary field that deals with the manipulation of fluids ...
Microfluidic techniques allow precise control of fluids and particles at the nanoliter scale and fac...
Microfluidic systems have significant implications for the fields of cell biology and cell-based ass...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
We introduce microfluidics technologies as a key foundational technology for synthetic biology exper...
The use of microfluidic bioreactor platforms for cell culturing holds considerable promise for a ran...
Biomicrofluidics is an active area of research at present, exploring the synergy of microfluidics wi...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Conventional culture systems are often limited in their ability to regulate the growth and different...
The underlying physical properties of microfluidic tools have led to new biological insights through...