David Fernandez Rivas
David Fernandez Rivas
University of Twente - Massachusetts Institute of Technology
Verified email at - Homepage
Cited by
Cited by
Plasma–liquid interactions: a review and roadmap
PJ Bruggeman, MJ Kushner, BR Locke, JGE Gardeniers, WG Graham, ...
Plasma sources science and technology 25 (5), 053002, 2016
Pathways to electrochemical solar-hydrogen technologies
S Ardo, DF Rivas, MA Modestino, VS Greiving, FF Abdi, EA Llado, ...
Energy & environmental science 11 (10), 2768-2783, 2018
Influence of bubbles on the energy conversion efficiency of electrochemical reactors
A Angulo, P van der Linde, H Gardeniers, M Modestino, DF Rivas
Joule 4 (3), 555-579, 2020
Measuring cavitation and its cleaning effect
B Verhaagen, DF Rivas
Ultrasonics sonochemistry 29, 619-628, 2016
Merging microfluidics and sonochemistry: towards greener and more efficient micro-sono-reactors.
RD Fernandez, P Cintas, HJ Gardeniers
Chemical communications (Cambridge, England), 2012
Cavitation measurement during sonic and ultrasonic activated irrigation
R Macedo, B Verhaagen, DF Rivas, M Versluis, P Wesselink, ...
Journal of endodontics 40 (4), 580-583, 2014
Efficient sonochemistry through microbubbles generated with micromachined surfaces
D Fernandez Rivas, A Prosperetti, AG Zijlstra, D Lohse, HJGE Gardeniers
Angewandte Chemie International Edition 49 (50), 9699-9701, 2010
Synergy of Microfluidics and Ultrasound
D Fernandez Rivas, S Kuhn
Topics in Current Chemistry, 10.1007/s41061-016-0070-y, 2016
The potential for microfluidics in electrochemical energy systems
MA Modestino, DF Rivas, SMH Hashemi, JGE Gardeniers, D Psaltis
Energy & environmental science 9 (11), 3381-3391, 2016
Sonochemical and high-speed optical characterization of cavitation generated by an ultrasonically oscillating dental file in root canal models
RG Macedo, B Verhaagen, DF Rivas, JGE Gardeniers, ...
Ultrasonics sonochemistry 21 (1), 324-335, 2014
On the hydrodynamics of liquid–liquid slug flow capillary microreactors
MN Kashid, DF Rivas, DW Agar, S Turek
Asia‐Pacific Journal of Chemical Engineering 3 (2), 151-160, 2008
Ultrasound artificially nucleated bubbles and their sonochemical radical production
DF Rivas, L Stricker, AG Zijlstra, HJGE Gardeniers, D Lohse, A Prosperetti
Ultrasonics sonochemistry 20 (1), 510-524, 2013
Localized removal of layers of metal, polymer, or biomaterial by ultrasound cavitation bubbles
D Fernandez Rivas, B Verhaagen, JRT Seddon, AG Zijlstra, LM Jiang, ...
Biomicrofluidics 6 (3), 034114, 2012
Sonoluminescence and sonochemiluminescence from a microreactor.
RD Fernandez, M Ashokkumar, T Leong, K Yasui, T Tuziuti, S Kentish, ...
Ultrasonics sonochemistry, 2012
Evaluation method for process intensification alternatives
DF Rivas, E Castro-Hernández, ALV Perales, W van der Meer
Chemical Engineering and Processing-Process Intensification 123, 221-232, 2018
Ultrasonic cleaning of 3D printed objects and Cleaning Challenge Devices
B Verhaagen, T Zanderink, DF Rivas
Applied Acoustics 103, 172-181, 2016
Process intensification education contributes to sustainable development goals. Part 2
DF Rivas, DC Boffito, J Faria-Albanese, J Glassey, J Cantin, N Afraz, ...
Education for Chemical Engineers 32, 15-24, 2020
Gas bubble evolution on microstructured silicon substrates
P Van Der Linde, P Peñas-López, ÁM Soto, D Van Der Meer, D Lohse, ...
Energy & environmental science 11 (12), 3452-3462, 2018
Enhancing acoustic cavitation using artificial crevice bubbles
A Zijlstra, DF Rivas, HJGE Gardeniers, M Versluis, D Lohse
Ultrasonics 56, 512-523, 2015
Delivery strategies for skin: comparison of nanoliter jets, needles and topical solutions
K Cu, R Bansal, S Mitragotri, D Fernandez Rivas
Annals of biomedical engineering 48 (7), 2028-2039, 2020
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