Nico de Rooij
Nico de Rooij
Professor Emeritus, EPFL
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Microfluidics meets MEMS
E Verpoorte, NF De Rooij
Proceedings of the IEEE 91 (6), 930-953, 2003
Operation of chemically sensitive field-effect sensors as a function of the insulator-electrolyte interface
L Bousse, NF De Rooij, P Bergveld
IEEE Transactions on electron devices 30 (10), 1263-1270, 1983
In-vivo behaviour of hypodermically implanted microfabricated glucose sensors
M Koudelka, F Rohner-Jeanrenaud, J Terrettaz, E Bobbioni-Harsch, ...
Biosensors and Bioelectronics 6 (1), 31-36, 1991
Microfluidic chips for point‐of‐care immunodiagnostics
L Gervais, N De Rooij, E Delamarche
Advanced materials 23 (24), H151-H176, 2011
Autonomous microfluidic capillary system
D Juncker, H Schmid, U Drechsler, H Wolf, M Wolf, B Michel, N de Rooij, ...
Analytical chemistry 74 (24), 6139-6144, 2002
Potential drifts of solid‐contacted ion‐selective electrodes due to zero‐current ion fluxes through the sensor membrane
M Fibbioli, WE Morf, M Badertscher, NF de Rooij, E Pretsch
Electroanalysis: An International Journal Devoted to Fundamental and …, 2000
Lifespan of subcutaneous glucose sensors and their performances during dynamic glycaemia changes in rats
E Bobbioni-Harsch, F Rohner-Jeanrenaud, M Koudelka, N de Rooij, ...
Journal of Biomedical Engineering 15 (6), 457-463, 1993
Liquid droplet spray device for an inhaler suitable for respiratory therapies
J Hess, H Bo, R Weber, I Ortega, C Barraud, B van der Schoot, ...
US Patent 6,196,219, 2001
Planar amperometric enzyme-based glucose microelectrode
M Koudelka, S Gernet, NF De Rooij
Sensors and Actuators 18 (2), 157-165, 1989
Fabrication and characterization of a planar electrochemical cell and its application as a glucose sensor
S Gernet, M Koudelka, NF De Rooij
Sensors and Actuators 18 (1), 59-70, 1989
Planar microcoil-based microfluidic NMR probes
C Massin, F Vincent, A Homsy, K Ehrmann, G Boero, PA Besse, ...
Journal of Magnetic Resonance 164 (2), 242-255, 2003
Study of electrochemical etch-stop for high-precision thickness control of silicon membranes
B Kloeck, SD Collins, NF de Rooij, RL Smith
IEEE Transactions on Electron Devices 36 (4), 663-669, 1989
Electrokinetically driven microfluidic chips with surface-modified chambers for heterogeneous immunoassays
A Dodge, K Fluri, E Verpoorte, NF de Rooij
Analytical chemistry 73 (14), 3400-3409, 2001
Zeta potential measurements of Ta2O5 and SiO2 thin films
L Bousse, S Mostarshed, B Van Der Shoot, NF De Rooij, P Gimmel, ...
Journal of Colloid and Interface Science 147 (1), 22-32, 1991
Sample pretreatment on microfabricated devices
J Lichtenberg, NF De Rooij, E Verpoorte
Talanta 56 (2), 233-266, 2002
Vertical mirrors fabricated by deep reactive ion etching for fiber-optic switching applications
C Marxer, C Thio, MA Gretillat, NF de Rooij, R Battig, O Anthamatten, ...
Journal of Microelectromechanical Systems 6 (3), 277-285, 1997
Three-dimensional micro flow manifolds for miniaturized chemical analysis systems
EMJ Verpoorte, BH Van Der Schoot, S Jeanneret, A Manz, HM Widmer, ...
Journal of Micromechanics and Microengineering 4 (4), 246, 1994
Micro-Opto-Mechanical 2\;\times\; 2 switch for single-mode fibers based on plasma-etched silicon mirror and electrostatic actuation
C Marxer, NF De Rooij
Journal of Lightwave Technology 17 (1), 2, 1999
Miniaturized time-scanning Fourier transform spectrometer based on silicon technology
O Manzardo, HP Herzig, CR Marxer, NF de Rooij
Optics letters 24 (23), 1705-1707, 1999
Comparison of the hysteresis of Ta2O5 and Si3N4 pH-sensing insulators
L Bousse, S Mostarshed, B van der Schoot, NF De Rooij
Sensors and Actuators B: Chemical 17 (2), 157-164, 1994
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20