M
Martin D. Verweij
Researcher at Delft University of Technology
Publications - 180
Citations - 2103
Martin D. Verweij is an academic researcher from Delft University of Technology. The author has contributed to research in topics: Transducer & Nonlinear system. The author has an hindex of 21, co-authored 150 publications receiving 1523 citations. Previous affiliations of Martin D. Verweij include Erasmus University Medical Center & Erasmus University Rotterdam.
Papers
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Journal ArticleDOI
Ultrasound-Responsive Cavitation Nuclei for Therapy and Drug Delivery
Klazina Kooiman,Silke Roovers,Simone A.G. Langeveld,Robert T. Kleven,Heleen Dewitte,Meaghan A. O'Reilly,Jean-Michel Escoffre,Ayache Bouakaz,Martin D. Verweij,Kullervo Hynynen,Ine Lentacker,Eleanor Stride,Christy K. Holland +12 more
TL;DR: This review summarizes recent investigations that have elucidated interactions of ultrasound and cavitation nuclei with cells, the treatment of tumors, immunotherapy, the blood–brain and blood–spinal cord barriers, sonothrombolysis, cardiovascular drug delivery and sonobactericide.
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Acoustic droplet vaporization is initiated by superharmonic focusing
Oleksandr Shpak,Martin D. Verweij,Hendrik J. Vos,Hendrik J. Vos,Nico de Jong,Nico de Jong,Detlef Lohse,Michel Versluis +7 more
TL;DR: In this article, the authors show that acoustic droplet vaporization is initiated by a combination of highly nonlinear distortion of the acoustic wave before it hits a droplet and focusing of the distorted wave by the droplet itself.
Journal ArticleDOI
On the effect of resonant microwave fields on temperature distribution in time and space
TL;DR: In this paper, it is shown that these complexities are caused by the resonant nature of the microwave fields present in heating devices, which is demonstrated by means of experiments and modeling concerning heating of waterfilled vials in single mode resonant microwave equipment.
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A sensitive optical micro-machined ultrasound sensor (OMUS) based on a silicon photonic ring resonator on an acoustical membrane.
S.M. Leinders,W.J. Westerveld,Jose Pozo,P.L.M.J. van Neer,Brian D. Snyder,Peter O'Brien,H. P. Urbach,N. de Jong,N. de Jong,Martin D. Verweij +9 more
TL;DR: Proof of concept of an optical micro-machined ultrasound sensor (OMUS) fabricated with a semi-industrial CMOS fabrication line based on integrated photonics, which allows for elements with small spatial footprint and is compatible with MRI due to the lack of electronical wiring.
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Microwaves and microreactors: Design challenges and remedies
TL;DR: In this article, a coaxial traveling microwave multichannel reactor concept is proposed for small and micro-structured processing systems, and numerical simulations show that this concept enables controlled and optimized microwave processing.