Export directly to RefWorks

TY  - BOOK
ID  - 37212172
TI  - Lab-on-chips for cellomics : micro and nanotechnologies for life science
AU  - Andersson, Helene
AU  - Van den Berg, Albert
PY  - 2004
SN  - 1280190841 9781402029756 9786610190843 1402029756 1402028601
PB  - Dordrecht, Netherlands : Springer Science Business Media, B.V.,
DB  - UniCat
KW  - Cytology
KW  - Artificial cells.
KW  - Cell culture.
KW  - Bioengineering.
KW  - Nanotechnology.
KW  - Technique.
KW  - Medicine.
KW  - Analytical biochemistry.
KW  - Biotechnology.
KW  - Cytology.
KW  - Electronics.
KW  - Biomedicine general.
KW  - Analytical Chemistry.
KW  - Cell Biology.
KW  - Electronics and Microelectronics, Instrumentation.
KW  - Analytical chemistry.
KW  - Cell biology.
KW  - Microelectronics.
KW  - Biomedicine, general.
KW  - Microminiature electronic equipment
KW  - Microminiaturization (Electronics)
KW  - Electronics
KW  - Microtechnology
KW  - Semiconductors
KW  - Miniature electronic equipment
KW  - Electrical engineering
KW  - Physical sciences
KW  - Cell biology
KW  - Cellular biology
KW  - Biology
KW  - Cells
KW  - Chemical engineering
KW  - Genetic engineering
KW  - Analysis, Chemical
KW  - Analytic chemistry
KW  - Chemical analysis
KW  - Chemistry, Analytic
KW  - Chemistry
KW  - Health Workforce
KW  - Cultures (Biology)
KW  - Cells, Artificial
KW  - Microcapsules (Biology)
KW  - Technique
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:37212172
AB  - Dear reader, In the past few years we have observed an interesting mutual interest of two fields of research and development in each other. Life sciences area researchers discovered the opportunities offered my micro- and nanotechnology, while people from the microfluidics and BIOMEMS area discovered the application potential of these technologies in cell biology. Unfortunately, these two research communities share little in common: they read and publish in different scientific journals, have incompatible jargons, attend separate conferences, and have a different scientific approach and culture. This is most strikingly illustrated when you give a MEMS researcher some cells to experiment with, or hand over a couple of chips to a cell biologist. Or imagine explaining a microengineer different intracellular apoptotic pathway or a cell biologist about tensile stress in underetched LPCVD membranes. And yet, there is an enormous potential of combining the expertises available in these two fields. It is our goal to illustrate this potential with this book focusing on microfluidics technologies for “cellomics”, research on or with cells. In our view, the field is still too immature to compile a textbook for students, and this volume is rather meant to be a collection of first class papers of leaders in this emerging field. This volume will enable researchers from both communities to get a rapid “state of the art” overview, and also to get an impression what kind of possibilities this area offers. Micro- and nanotechnologists will get inspiration about applications, life science researchers about technological capabilities.
ER  -