Her primary areas of study are Optoelectronics, Silicon, Surface micromachining, Optics and Nanotechnology. Her Optoelectronics study focuses on Wafer in particular. Her Silicon study incorporates themes from Etching, Thermopile and Actuator, Electrical engineering.
Her Surface micromachining research is multidisciplinary, incorporating perspectives in Layer, Polyimide, Silicon carbide and Stiction. In her study, Sample is strongly linked to Microfluidics, which falls under the umbrella field of Optics. Her work is dedicated to discovering how Nanotechnology, Beam are connected with Engraving, Contact force and Wheatstone bridge and other disciplines.
Her main research concerns Optoelectronics, Silicon, Optics, Nanotechnology and Microelectromechanical systems. Her research investigates the connection between Optoelectronics and topics such as Electronic engineering that intersect with problems in Actuator. Her Silicon study combines topics in areas such as Substrate, Deep reactive-ion etching, Composite material and Electrical engineering.
Her study explores the link between Composite material and topics such as Thin film that cross with problems in Analytical chemistry. Her Optics study frequently draws connections between related disciplines such as Silicon carbide. Her research integrates issues of Cantilever and Lithography in her study of Nanotechnology.
Pasqualina M. Sarro spends much of her time researching Optoelectronics, Microelectromechanical systems, Graphene, Nanotechnology and Chemical vapor deposition. Her Optoelectronics research includes elements of Layer, Signal and High-electron-mobility transistor. The various areas that she examines in her Microelectromechanical systems study include Scanner, Optics, Sintering, Deep reactive-ion etching and Actuator.
Her work in the fields of Substrate, Polydimethylsiloxane and Carbon nanotube overlaps with other areas such as Nanoelectromechanical systems. Her research in Chemical vapor deposition intersects with topics in Molybdenum, Raman spectroscopy and Graphene oxide paper. Her research in Resistor tackles topics such as Microfabrication which are related to areas like Silicon.
Her primary scientific interests are in Optoelectronics, Nanotechnology, Graphene, Layer and Chemical vapor deposition. Pasqualina M. Sarro connects Optoelectronics with Hydrogen sulfide in her study. Her work on PEDOT:PSS is typically connected to Cancer research, Breast tumor and Tumor microenvironment as part of general Nanotechnology study, connecting several disciplines of science.
The Layer study combines topics in areas such as Surface roughness and Microelectromechanical systems. Her Microelectromechanical systems research is multidisciplinary, relying on both Silicon nitride, Silicon, Optics, Monolayer and Actuator. Her Chemical vapor deposition study combines topics from a wide range of disciplines, such as Substrate, Relative humidity and Graphene oxide paper.
A.W. Van Herwaarden;P.M. Sarro
Pasqualina M Sarro
J.F. Creemer;S. Helveg;G.H. Hoveling;S. Ullmann
K. Aratani;P. J. French;P. M. Sarro;D. Poenar
Gleb Vdovin;P. M. Sarro
Z Chu;P.M Sarro;S Middelhoek
P.J French;P.M Sarro;R Mallée;E.J.M Fakkeldij
K. Aratani;P.J. French;P.M. Sarro;R.F. Wolffenbuttel
C. Leguijt;P. Lölgen;J.A. Eikelboom;A.W. Weeber
G. Vdovin;S. Middelhoek;P. M. Sarro
A.W. van Herwaarden;D.C. van Duyn;B.W. van Oudheusden;P.M. Sarro
A Berthold;L Nicola;P.M Sarro;M.J Vellekoop
N T Nguyen;E Boellaard;N P Pham;V G Kutchoukov
Nga P Pham;Joachim N Burghartz;Pasqualina M Sarro
E.J. Connolly;G.M. O’Halloran;H.T.M. Pham;P.M. Sarro
J.F. Creemer;S. Helveg;P.J. Kooyman;A.M. Molenbroek
Trinh Chu Duc;Gih-Keong Lau;J.F. Creemer;P.M. Sarro
A Bagolini;L Pakula;T L M Scholtes;H T M Pham
G. Cocorullo;M. Iodice;I. Rendina;P.M. Sarro
M.J. Vellekoop;C.C.O. Visser;P.M. Sarro;A. Venema
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