Electronic Components, Technology and Materials
Department of Microelectronics

dr. Massimo Mastrangeli

Associate Professor
Electronic Components, Technology and Materials (ECTM), Department of Microelectronics

Expertise: Organ-on-chip technology, micro/nanosystems assembly, capillary manipulation, solid-liquid interfaces

Themes: MEMS Technology, Organs-on-chip, Micro/Nano System Integration and Reliability

Biography

As Associate Professor at TU Delft's ECTM group, Massimo "Max" Mastrangeli is investigating the design and fabrication of innovative Si/polymer-based microelectromechanical organ-on-chip platforms, and processes for ultra-high throughput assembly of microcomponents.

Massimo received the B.Sc. and M.Sc. degrees cum laude in Electronic Engineering from Universitá di Pisa, (Pisa, Italy) in 2003 and 2005, respectively, and the Ph.D. degree in Materials Engineering from University of Leuven (Leuven, Belgium) in 2010. His doctoral dissertation pioneered microsystem integration by fluidic self-assembly.

From 2011 to 2013 Massimo was Post-Doctoral Scientist with the Distributed Intelligent Systems and Algorithms Laboratory (DISAL) and the Microsystems Laboratory (LMIS1) of École Polytechnique Fédérale de Lausanne (EPFL, Lausanne, Switzerland), investigating the convergence of micro/nanosystems and distributed robotics into smart minimal agents.

In 2014, Massimo joined the Department of Bio, Electro And Mechanical Systems (BEAMS) of Université Libre de Bruxelles (ULB) as Senior Scientist, investigating surface tension-based micromanipulation and templated nanoparticle assembly for plasmonic applications.

As Research Associate at the Physical Intelligence Department of the Max Planck Institute for Intelligent Systems and Associated Member of the Max Planck ETH Center for Learning Systems (Stuttgart, Germany) between 2015 and 2017, Massimo focused his research on micro-robotics, bio-inspired adhesion, and programmable self-organization.

Massimo joined the ECTM group at TU Delft in 2017 as Assistant Professor, to be promoted in 2023 to Associate Professor. He is currently also Lecturer at the EDMI Doctoral School of École Polytechnique Fédérale de Lausanne, and board member of the European Organ-on-Chip Society (EUROoCS).

 

ET4127 Themes in biomedical electronics

BioMEMS, biosensors, bioelectronics, ultrasound, microfluidics, wavefield imaging in monitoring, diagnosis and treatment

ET4391 Advanced microelectronics packaging

Basics and state-of-the-art of semiconductor device packaging and system integration.

Education history

EE1P11 Classical and Quantum Mechanics

(not running) "Classical and Quantum Mechanics" (EE1P11) teaches the basic elements of physics that are required to become an electrical engineer.

EE2L11 EPO-3: Design a Chip

(not running) Structural hierarchical design of a VLSI chip, implemented using Sea-of-Gates

EE3345TU Introduction to Physics of Electronics

(not running) A brief overview of introductory material in electromagnetics (EM) and quantum mechanics (QM), which forms the basis for later courses in the Minor of Physics of Electronics.

EE3365TU Basics of Microfabrication

(not running)

EE3375TU Basics of Solid-State Physics

(not running)

NXTGEN Hightech - Biomedical Production Technology 3

Technology platforms for organs-on-chip

Smart Organ-on-Chip

Developing a Standardized and Modular open technology OoC platform as a new Approach to Recapitulate human Tissues: the SMART OoC

Developing immunocompetent human organ-on-a-chip models with integrated lymph drainage for drug discovery and testing

Developing immunocompetent human organ-on-a-chip models with integrated lymph drainage for drug discovery and testing.

Next-generation chip assembly processes

Developing technology for ultra-high throughput and sustainable chip assembly processes.

Netherlands Organ-on-Chip Initiative

To develop new microphysiological platforms to better predict the effect of medicines, based on a combination of human stem cells and microtechnology.

Projects history

Moore4Medical

Accelerate Innovation in emerging medical devices with open technology platforms

Health.E Lighthouse Support Initiative

A Brain-on-Chip Platform for Focused Ultrasonic Stimulation

We intend to develop an innovative brain-on-chip platform to decode the mechanisms underlying ultrasonic neu-romodulation.

Organ-on-Chip in Development

Developing a European roadmap for the development of organ-on-chip technology

  1. Integrated Electrochemical and Optical Biosensing in Organs-on-Chip
    Pratik Tawade; Massimo Mastrangeli;
    ChemBioChem,
    Volume 25, Issue 3, pp. e202300560, 2024. DOI: 10.1002/cbic.202300560

  2. Research on the health impact of climate must consider distributive justice and environmental sustainability
    C. Richie; P. Garcia-Gomez; H. B. Thio; A. Rwei; C. Joo; U. Staufer; D. Muratore; M. Mastrangeli; I. Dedoussi; J. van Exel; T. van Ourti; I. Bonfrer; A. Gianoli; A. Los; G. T. J. van der Horst; M. van Hagen; L. Burdorf; J. V. Been; M. Hermans; R. Stadhouders; R. J. Rottier; A. Bornioli; I. Chaves; W. A. Dik;
    PLoS Climate,
    Volume 3, Issue 6, pp. e0000431, 2024. DOI: 10.1371/journal.pclm.0000431

  3. Standardizing designed and emergent quantitative features in microphysiological systems
    D. Nahon; R. Moerkens; H. Aydogmus; B. Lendemeijer; A. Martínez-Silgado; J. Stein; M. Dostanic; J.-P. Frimat; C. Gontan; M. de Graaf; M. Hu; D. Kasi; L. Koch; K. Le; S. Lim; H. Middelkamp; J. Mooiweer; P. Motreuil-Ragot; E. Niggl; C. Pleguezuelos; J. Puschhof; N. Revyn; J. Rivera; J. Slager; L. Windt; M. Zakharova; B. van Meer; V. Orlova; F. de Vrij; S. Withoff; M. Mastrangeli; A. van der Meer; C. L. Mummery;
    Nature Biomedical Engineering,
    Volume 8, pp. 941-962, 2024. DOI: 10.1038/s41551-024-01236-0

  4. Spatial analysis of transcript and protein expression in skeletal muscle
    P. Pisterzi; C. Martinez Mir; O. Dahri; I. de Poorter; S. Batlles Parera; M. Dostanic; M. Mastrangeli; C. Mummery; N. Geijsen; F. Sage;
    STAR Protocols,
    Volume 5, Issue 4, pp. 103378, 2024. DOI: https://doi.org/10.1016/j.xpro.2024.103378

  5. Transparent Electroactive Actuators for Organ-on-Chip Platforms
    A. Tajeddin; A. Hunt; P. M. Sarro; M. Mastrangeli;
    In EUROoCS Annual Meeting 2024,
    3-5 July 2024.

  6. Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology
    B. de Wagenaar; F. Bens; A. Mameli; A. Kronemeijer; A. Bussmann; B. Firtat; M. Mastrangeli; A. van Breemen;
    In Microfluidic Handling Systems (MFHS2024),
    21-23 February 2024.

  7. Anti-Reflective Microengineered Substrate for In Vitro Ultrasound Neuromodulation
    G. Wardhana; T. Costa; M. Mastrangeli;
    In IEEE Ultrasonics, Ferroelectrics, and Frequency Control Joint Symposium (IEEE UFFC-JS 2024),
    22-26 September 2024.

  8. Simultaneous detection of oxygen tension and pH for organ health monitoring during transplants
    A. Sett; R. Friendwijk; S. Wang; G. de Graat; M. Mastrangeli; P. French;
    In 50th International Micro and Nano Engineering Conference (MNE 2024),
    16-19 September 2024.

  9. Manufacturing thin ionic polymer metal composite for sensing at the microscale
    Paul Motreuil-Ragot; Andres Hunt; Leandro N. Sacco; Pasqualina M. Sarro; Massimo Mastrangeli;
    Smart Materials and Structures,
    Volume 32, pp. 035006, 2023. DOI: 10.1088/1361-665X/acb305

  10. An organ-on-chip device with integrated charge sensors and recording microelectrodes
    Hande Aydogmus; Michel Hu; Lovro Ivancevic; Jean-Philippe Frimat; Arn M. J. M. van den Maagdenberg; Pasqualina M. Sarro; Massimo Mastrangeli;
    Scientific Reports,
    Volume 13, Issue 8062, 2023. DOI: https://doi.org/10.1038/s41598-023-34786-5

  11. Automated assessment of human engineered heart tissues using deep learning and template matching for segmentation and tracking
    J. M. Rivera‐Arbeláez; D. Keekstra; C. Cofiño‐Fabres; Tom Boonen; M. Dostanic; S. A. Ten Den; K. Vermeul; M. Mastrangeli; A. van den Berg; L. I. Segerink; M. C. Ribeiro; N. Strisciuglio; R. Passier;
    Bioengineering & Translational Medicine,
    Volume 8, Issue 3, pp. e10513, 2023. DOI: 10.1002/btm2.10513

  12. Miniaturized engineered heart tissues from hiPSC-derived triple cell type co-cultures to study human cardiac function
    L Windt; M. Wiendels; M. Dostanic; M. Bellin; P. M. Sarro; M. Mastrangeli; C. L. Mummery; B. J. van Meer;
    Biochemical and Biophysical Research Communications,
    Volume 681, pp. 200-211, 2023. DOI: 10.1016/j.bbrc.2023.09.034

  13. Highly reproducible tissue positioning with tapered pillar design in engineered heart tissue platforms
    M. Dostanic; L. M. Windt; M. Wiendels; B. J. van Meer; C. L. Mummery; P. M. Sarro; M. Mastrangeli;
    In IEEE 36th Intl. Conf. on Micro Electro Mechanical Systems (MEMS2023),
    2023. DOI: 10.1109/MEMS49605.2023.10052166

  14. A Highly Sensitive Capacitive Displacement Sensor For Force Measurement Integrated In An Engineered Heart Tissue Platform
    Milica Dostanic; Filippo Pfaiffer; Mahdieh Shojaei-Baghini; Laura M. Windt; Maury Wiendels; Berend J. van Meer; Christine L. Mummery; Pasqualina M. Sarro; Massimo Mastrangeli;
    In 22nd International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2023),
    25-29 June 2023.

  15. Dielectric spectroscopy for non-invasive sensing of multi-layered organ-on-chip devices
    T. Hosman; M. Spirito; M. Mastrangeli;
    In XXXV Eurosensors Conference,
    10-13 September 2023.

  16. An acoustically-transparent electrical cap for piezoelectric ultrasound transducers on silicon
    G. Wardhana; T. Costa; M. Mastrangeli;
    In XXXV Eurosensors Conference,
    10-13 September 2023.

  17. Evaporative crystallization of sessile droplets using electrowetting
    Q. An; P. Cui; B. Bera; M. Mastrangeli; J. Padding; B. Eral;
    In 27 Intl. Conf. on Miniaturized Systems for Chemistry and Life Sciences (microTAS 2023),
    15-19 October 2023.

  18. Organ-on-chip device integration and biological evaluation in the Smart Multi-Well Plate
    B. de Wagenaar; S. Meucci; H. A. Castro-Abril; R. Monge; U. Kraushaar; J. Meents; N. Gaio; A. Bußmann; R. Klemm; M. Mastrangeli;
    In MPS World Summit 2023,
    26-30 June 2023.

  19. High-definition microelectrode arrays with scalable, integrated microfluidics in multi-well format for drug screening in a heart-on-a-chip application
    M. Cóndor; D. Braeken; A. Rushdy Ahmed; R. Labie; F. Abeille; T. Moura; B. Brandstätter; M. Mastrangeli; S. Meucci; T. Stakenborg;
    In MPS World Summit 2023,
    26-30 June 2023.

  20. Automated and high-volume wafer-scale microfabrication of organ-on-chip (OoC) polymer structures and components
    T. Karim; N. Gaio; S. Kersjes; M. Dostanic; M. Mastrangeli;
    In MPS World Summit 2023,
    26-30 June 2023.

  21. Downscaled engineered heart tissues of entirely hiPSC-derived 3-cell-type co-culture are functional and viable over several weeks
    L. Windt; M. Wiendels; M. Dostanic; M. Bellin; P. M. Sarro; M. Mastrangeli; C. L. Mummery; B. van Meer;
    In MPS World Summit 2023,
    26-30 June 2023.

  22. A highly-sensitive integrated capacitive sensor for contractile force measurement in an engineered heart tissue platform
    M. Dostanic; F. Pfaiffer; M. S. Baghini; L. Windt; M. Wiendels; B. J. van Meer; C. Mummery; P. M. Sarro; M. Mastrangeli;
    In MPS World Summit 2023,
    26-30 June 2023.

  23. Micropumping chip module for a standardized and modular Organ-on-Chip platform
    J.-J. Yeh; A. Paul; M. Mastrangeli; M. Odijk; J. M. J. den Toonder;
    In MPS World Summit 2023,
    26-30 June 2023.

  24. Smart Multi-Well Plate: Industrializable open technology platform for tubeless, autonomous OoC applications
    S. Meucci; B. de Wagenaar; A. Bußmann; J. Meents; R. Klemm; J. Scheer; A. Van Breemen; T. Moura; M. Mastrangeli;
    In MPS World Summit 2023,
    26-30 June 2023.

  25. Technology Development for MEMS: A Tutorial
    Paddy J French; Gijs JM Krijnen; Sten Vollebregt; Massimo Mastrangeli;
    IEEE Sensors Journal,
    Volume 22, Issue 11, 2022. DOI: 10.1109/JSEN.2021.3104715

  26. Rapid Prototyping of Organ-on-a-Chip Devices Using Maskless Photolithography
    Dhanesh G. Kasi; Mees N. S. de Graaf; Paul A. Motreuil-Ragot; Jean-Phillipe M. S. Frimat; Michel D. Ferrari; Pasqualina M. Sarro; Massimo Mastrangeli; Arn M. J. M. van den Maagdenberg; Christine L. Mummery; Valeria V. Orlova;
    Micromachines,
    Volume 13, pp. 49, 2022. DOI: 10.3390/mi13010049

  27. Recording neuronal activity on chip with segmented 3D microelectrode arrays
    Nele Revyn; Michel. H. Y. Hu; Jean-Philippe M. S. Frimat; B. de Wagenaar; Arn M. J. M. van den Maagdenberg; Pasqualina M. Sarro; Massimo Mastrangeli;
    In 35th Intl. Conf. on Micro Electro Mechanical Systems (MEMS 2022),
    January 9-13 2022. DOI: 10.1109/MEMS51670.2022.9699597

  28. Maximization of transmitted acoustic intensity from silicon integrated piezoelectric ultrasound transducers
    Gandhika Wardhana; Massimo Mastrangeli; Tiago L. Costa;
    In IEEE International Ultrasonics Symposium,
    10-13 October 2022. DOI: 10.1109/IUS54386.2022.9957646

  29. Ionic polymer metal composite-based microfluidic flow sensor for bio-MEMS applications
    P. Motreuil-Ragot; G. Turcan; B. de Wagenaar; A. Hunt; P. M. Sarro; M. Mastrangeli;
    In IEEE SENSORS 2022,
    30 October - 2 November 2022. DOI: 10.1109/SENSORS52175.2022.9967281

  30. Analysis of Platinum Distribution within a Nafion 212 Membrane during Electroless Deposition
    P. Motreuil-Ragot; A. Hunt; L. N. Sacco; P. M. Sarro; M. Mastrangeli;
    In 242nd Electro Chemical Society Meeting,
    9-13 October 2022.

  31. Tapered pillars increase tissue position reproducibility in engineered heart tissue platforms
    M. Dostanic; L. M. Windt; J. M. Stein; B. J. Van Meer; C. L. Mummery; P. M. Sarro; M. Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  32. A Brain-on-chip Platform to Study the Optimal Parameters of Focused Ultrasound Neuromodulation
    G. Wardhana; M. Hu; J.-P. Frimat; A. M. J. M. Van den Maagdenberg; T. Costa; M. Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  33. Ionic polymer metal composite (IPMC)-based micropump for organs-on-chip
    P. Motreuil-Ragot; D. Kasi; B. de Wagenaar; A. Hunt; V. Orlova; A. M. J. M. van den Maagdenberg; P. M. SARRO; M. Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  34. Hybrid Silicon-Polymer Multi-Modal Sensing Device for Organ-on-Chip
    H. Aydogmus; M. Hu; J.-P. Frimat; A. M. J. M. van den Maagdenberg; P. M. Sarro; M Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  35. Integrated and tubeless pumping in an organ-on-chip multi-well plate
    B. de Wagenaar; S. Meucci; A. Bußman; M. Wackerle; J. Scheer; S. Kersjes; M. Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  36. Smart Multi-Well Plate: an autonomous, modular and scalable OoC platform
    S. Meucci; B. de Wagenaar; A. Bußmann; J. Meents; N. Gaio; R. Monge; R. Klemm; A. Breemen; J. Scheer; T. de Moura; S. Kersjes; M. Mastrangeli;
    In EUROoCS Conference 2022,
    4-5 July 2022.

  37. Brain-on-Chip Platform for Studying the Optimum Parameters of Ultrasound Neuromodulation
    G. Wardhana; M. Mastrangeli; T. Costa;
    In MRS Spring Meeting 2022,
    online, 23 May 2022.

  38. Highly-Conformal Sputtered Through-Silicon Vias with Sharp Superconducting Transition
    J. A. Alfaro-Barrantes; M. Mastrangeli; D. J. Thoen; S. Visser; J. Bueno; J. J. A. Baselmans; P. M. Sarro;
    Journal of Microelectromechanical Systems,
    Volume 30, Issue 2, pp. 253-261, 2021. DOI: 10.1109/JMEMS.2021.3049822

  39. Organs-on-chip: The way forward
    M. Mastrangeli; J. van den Eijnden-van Raaij;
    Stem Cell Reports,
    Volume 16, pp. 2037-2043, July 2021. DOI: 10.1016/j.stemcr.2021.06.015

  40. Recording 3D neuronal activity on chip with segmented 3D microelectrode arrays
    N. Revyn; M. H. Y. Hu; J.-P. Frimat; A. M. J. M. van den Maagdenberg; P. M. Sarro; M. Mastrangeli;
    In EUROoCS Conference 2021,
    online, 1-2 July, 2021.

  41. FET-based integrated charge sensing in a MEM organ-on-chip platform
    H. Aydogmus; H. J. van Ginkel; A.-D. Galiti; M. H. Y. Hu; J.-P. Frimat; A. M. J. M. van den Maagdenberg; G.Q. Zhang; M. Mastrangeli; P. M. Sarro;
    In EUROoCS Conference 2021,
    online, 1-2 July, 2021.

  42. Dual-gate FET-based charge sensor enhanced by in-situ electrode decoration in a MEMS organs-on-chip platform
    H. Aydogmus; H. J. van Ginkel; A.-D. Galiti; M. Hu; J.-P. Frimat; A. van den Maagdenberg; G.Q. Zhang; M. Mastrangeli; P. M. Sarro;
    In 21st Int. Conf. on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2021),
    online, 20-25 June, 2021.

  43. An engineered heart tissue platform with integrated pacing microelectrodes
    M. Dostanic; L. Windt; J. Stein; B. van Meer; A. Diakou; C. L. Mummery; P. M. Sarro; M. Mastrangeli;
    In EUROoCS Conference 2021,
    online, 1-2 July, 2021.

  44. ForceTracker: A versatile tool for contractile force assessment in 3D organ-on-chip platforms
    J. M. Rivera-Arbelaez; M. Dostanic; J. M. Stein; A. van den Berg; L. I. Segerink; C. L. Mummery; P. M. Sarro; M. Mastrangeli; M. C. Ribeiro; R. Passier;
    In EUROoCS Conference 2021,
    online, 1-2 July, 2021.

  45. Microelectronmechanical organs-on-chip
    Massimo Mastrangeli; Hande Aydogmus; Milica Dostanic; Paul Motreuil-Ragot; Nele Revyn; Bjorn de Wagenaar; Ronald Dekker; Pasqualina M. Sarro;
    In 21st Int. Conf. on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2021),
    online, 20-25 June, 2021.

  46. Self-aligned micro-optic integrated photonic platform
    A. Jovic; N. Sanchez Losilla; J. Sancho Durá; K. Zinoviev; J. L. Rubio Guivernau; E. Margallo-Balbás; M. Mastrangeli; G. Pandraud; P. M. Sarro;
    Applied Optics,
    Volume 59, Issue 1, pp. 180-189, 2020. DOI: 10.1364/AO.59.000180

  47. Controlling the pinning time of a receding contact line under forced wetting conditions
    J-C. Fernández-Toledano; C. Rigaut; M. Mastrangeli; J. De Coninck;
    Journal of Colloid and Interface Science,
    Volume 565, pp. 449-457, 2020. DOI: 10.1016/j.jcis.2020.01.054

  48. Bottom-up assembly of micro/nanostructures
    M. Mastrangeli; M. Perego;
    Advanced Materials Interfaces,
    Volume 7, Issue 5, pp. 2000182, 2020. DOI: 10.1002/admi.202000182

  49. Three-dimensional self-assembly using dipolar interaction
    L. Abelmann; T. A.G. Hageman; P. A. Loethman; M. Mastrangeli; M. Elwenspoek;
    Science Advances,
    Volume 6, Issue 19, pp. eaba2007, 2020. DOI: 10.1126/sciadv.aba2007

  50. Statistical reprogramming of macroscopic self-assembly with dynamic boundaries
    U. Culha; Z. S. Davidson; M. Mastrangeli; M. Sitti;
    Proceedings of the National Academy of Sciences of the USA,
    Volume 117, Issue 21, pp. 11306-11313, 2020. DOI: 10.1073/pnas.2001272117

  51. Superconducting High-Aspect Ratio Through-Silicon Vias with DC-Sputtered Al for Quantum 3D integration
    J. A. Alfaro-Barrantes; M. Mastrangeli; D. J. Thoen; S. Visser; J. Bueno; J. J. A. Baselmans; P. M. Sarro;
    IEEE Electron Device Letters,
    Volume 41, Issue 7, pp. 1114-1117, 2020. DOI: 10.1109/LED.2020.2994862

  52. A miniaturized EHT platform for accurate measurements of tissue contractile properties
    M. Dostanic; L. M. Windt; J. M. Stein; B. J. van Meer; M. Bellin; V. Orlova; M. Mastrangeli; C. L. Mummery; P. M. Sarro;
    Journal of Microelectromechanical Systems,
    Volume 29, Issue 5, pp. 881-887, July 2020. DOI: 10.1109/JMEMS.2020.3011196

  53. FET-based charge sensor for organs-on-chip with in-situ electrode decoration
    H. Aydogmus; H. J. van Ginkel; M. Mastrangeli; GuoQi Zhang; P.M. Sarro;
    In International MicroNanoConference,
    December 2020.

  54. Enabling Actuation and Sensing in Organs-On-Chip Using Electroactive Polymers
    P. Motreuil-Ragot; A. Hunt; D. Kasi; B. Brajon; A. M. J. M. van den Maagdenberg; V. Orlova; M. Mastrangeli; P. M. Sarro;
    In IEEE 3rd International Conference on Soft Robotics (RoboSoft 2020),
    2020. DOI: 10.1109/RoboSoft48309.2020.9115977

  55. Fabrication of Al-based superconducting high-aspect ratio TSVs for quantum 3D integration
    J. A. Alfaro-Barrantes; M. Mastrangeli; D. J. Thoen; J. Bueno; J. J. A. Baselmans; P. M. Sarro;
    In IEEE Int. Conf. on Micro Electro Mechanical Systems (MEMS 2020),
    2020. DOI: 10.1109/MEMS46641.2020.9056165

  56. Miniaturized engineered heart tissues from human induced pluripotent cell-derived co-culture
    L. Windt; M. Dostanic; J. Stein; V. Meraviglia; G. Campostrini; M. Bellin; V. Orlova; M. Mastrangeli; P. M. Sarro; B. van Meer; C. Mummery;
    In EUROoCS Conference 2020,
    2020.

  57. A 3D microelectrode array to record neural activity at different tissue depths
    T. de Rijk; M. Hu; J.-P. Frimat; A. M. J. M. van den Maagdenberg; P. M. Sarro; M. Mastrangeli;
    In EUROoCS Conference 2020,
    July 2020.

  58. FET-based integrated charge sensor for organ-on-chip applications
    H. Aydogmus; M. Dostanic; M. Jahangiri; R. Sinha; W. F. Quiros-Solano; M. Mastrangeli; P. M. Sarro;
    In IEEE Sensors 2020,
    2020. DOI: 10.1109/SENSORS47125.2020.9278692

  59. Microelectromechanical organs-on-chip
    M. Mastrangeli;
    Keynote lecture, presented at 4th Annual hDMT Consortium Meeting, Rotterdam (NL), 14 February 2020.

  60. Unmet needs, key challenges and market perspectives in organs-on-chip
    M. Mastrangeli;
    Presented at ORCHID final meeting, Leiden (NL), 23 September 2020.

  61. Self-assembly across scales and interfaces
    M. Mastrangeli;
    Seminar, presented at the Department of Micro and Nanosystems, KTH Royal Institute of Technology, 3 April 2020.

  62. Microengineering organs-on-chip
    M. Mastrangeli;
    Invited talk, presented at the Workshop on Applications of Micro-Nanorobotics, IEEE International Conference on Robotics and Automation (ICRA 2020), 3 June 2020.
    document

  63. Building Blocks for a European Organ-on-Chip Roadmap
    M. Mastrangeli; S. Millet; C. Mummery; P. Loskill; D. Braeken; W. Eberle; M. Cipriano; L. Fernandez; M. Graef; X. Gidrol; N. Picollet-D'Hahan; B. van Meer; I. Ochoa; M. Schutte; J. van den Eijnden-van Raaij;
    ALTEX - Alternatives to Animal Experimentation,
    Volume 36, Issue 3, pp. 481-492, 2019. DOI: 10.14573/altex.1905221

  64. A thermodynamic description of turbulence as a source of stochastic kinetic energy for 3D self-assembly
    P. A. Loethman; T. A. Hageman; M. C. Elwenspoek; G. J. M. Krijnen; M. Mastrangeli; A. Manz; L. Abelmann;
    Advanced Materials Interfaces,
    Volume 7, Issue 5, pp. 1900963, 2019. DOI: 10.1002/admi.201900963

  65. Adhesive elastocapillary force on a cantilever beam
    T. Gilet; S. M. Gernay; L. Aquilante; M. Mastrangeli; P. Lambert;
    Soft Matter,
    Volume 15, pp. 3999-4007, 2019. DOI: 10.1039/C9SM00217K

  66. Self-folding using capillary forces
    K. S. Kwok; Q. Huang; M. Mastrangeli; D. H. Gracias;
    Advanced Materials Interfaces,
    Volume 7, Issue 5, pp. 1901677, 2019. DOI: 10.1002/admi.201901677

  67. Organ-on-Chip in Development: Towards a roadmap for organs-on-chip
    M. Mastrangeli; S. Millet; the ORCHID partners; J. van den Eijnden-van Raaij;
    ALTEX-Alternatives to Animal Experimentation,
    Volume 36, Issue 4, pp. 650-668, 2019. DOI: 10.14573/altex.1908271

  68. Microscale surface tension and its applications
    P. Lambert; M. Mastrangeli (Ed.);
    MDPI, , 2019. DOI: 10.3390/mi10080526

  69. Micro- and nanosystems assembly via fluid joints (Plenary talk)
    M. Mastrangeli;
    In 4th Int. Conf. on Manipulation, Automation and Robotics at Small Scales (MARSS 2019),
    4 July 2019.

  70. A miniaturized EHT platform for contractile tissue measurements
    M. Dostanic; L. Windt; J. Stein; B. van Meer; M. Mastrangeli; C. Mummery; P. M. Sarro;
    In International MicroNanoConference,
    Utrecht (NL), December 10-11, 2019.

  71. Enabling actuation and sensing in organs-on-chip using electroactive polymers
    P. Motreuil-Ragot; A. Hunt; D. Kasi; B. Brajon; A. van den Maagdenberg; V. Orlova; M. Mastrangeli; P. M. Sarro;
    In International MicroNanoConference,
    Utrecht (NL), December 10-11, 2019.

  72. Sensor applications for organ-on-chip platforms
    H. Aydogmus; M. Dostanic; M. Jahangiri; R. Sinha; W. F. Quiros-Solano; M. Mastrangeli; P. M. Sarro;
    In International MicroNanoConference,
    Utrecht (NL), December 10-11, 2019.

  73. Organs- (and other pretty cool stuff) on-chip
    M. Mastrangeli;
    Seminar, presented at the Department of Nano Opto-Mechatronic Instruments (NOMI) of TNO, June 6 2019.

  74. Micro- and nanosystems assembly via fluid joints
    M. Mastrangeli;
    Seminar, presented at Stanford University, Palo Alto (CA), August 12, 2019.

  75. Microengineering organs-on-chip
    M. Mastrangeli;
    Invited talk, presented at QBio Symposium, Utrecht (NL), October 29, 2019.

  76. Microengineered organs-on-chip
    H. Aydogmus; M. Dostanic; P. Motreuil-Ragot; M. Mastrangeli; P. M. Sarro;
    Poster, presented at QBio Symposium, Utrecht (NL), October 29, 2019.

  77. Self-assembly by fluidics and by shaking
    M. Mastrangeli;
    Seminar, presented at Palo Alto Research Center (PARC), Palo Alto (CA), July 31, 2019.

  78. Microengineering organs-on-chip
    M. Mastrangeli;
    Seminar, presented at Universita' di Roma - Tor Vergata, Roma (IT), December 20, 2019.

  79. Single nanoparticle printing
    M. Mastrangeli;
    Seminar, presented at Palo Alto Research Center (PARC), Palo Alto (CA), August 28, 2019.

  80. Kinetics of orbitally shaken particles constrained to two dimensions
    D. Ipparthi; T. A. G. Hageman; N. Cambier; M. Sitti; M. Dorigo; L. Abelmann; M. Mastrangeli;
    Physical Review E,
    Volume 98, pp. 042137, 2018. DOI: 10.1103/PhysRevE.98.042137

  81. Self-assembly: Insights from the macroscale
    M. Mastrangeli;
    In 3rd Int. Conf. on Manipulation, Automation and Robotics at Small Scales (MARSS2018),
    2018.

  82. Vacuum Assisted Liquified Metal (VALM) TSV Filling Method With Superconductive Material
    J.A. Alfaro; P.M. Sberna; C. Silvestri; M. Mastrangeli; R. Ishihara; P.M. Sarro;
    In 31th IEEE International Conference on Micro Electro Mechanical Systems (MEMS),
    2018. DOI: 10.1109/MEMSYS.2018.8346611

  83. Technological challenges and unmet needs for organs-on-chip: Expert opinions
    M. Mastrangeli;
    presented at ORCHID (Organs-on-CHIp in Development) Vision Workshop, Stuttgart (DE), May 23, 2018.

  84. Nanoscale topography controls the capillary assembly of nanoparticles
    M. Mastrangeli;
    presented at the Institute of Applied Sciences and Intelligent Systems, National Research Council of Italy, Pozzuoli (IT), October 26, 2018.

  85. Small-scale soft robots with multimodal locomotion
    M. Mastrangeli;
    presented at Digital Health: Robotic Assistance for a better life (ETV Symposium), Delft (NL), 6 June 2018.

  86. On capillary nanoparticle assembly and soft multimodal robots
    M. Mastrangeli;
    presented at Aalto University, Espoo (FI), August 10, 2018.

  87. Nanoscale topography controls the capillary assembly of nanoparticles
    M. Mastrangeli;
    presented at Holst Centre, Eindhoven (NL), February 16, 2018.

  88. Nanoscale topography controls the capillary assembly of nanoparticles
    M. Mastrangeli;
    presented at AMOLF (Amsterdam, NL), November 2017.

  89. Soft miniature robots with multimodal locomotion
    M. Mastrangeli;
    presented at the microMAST General Meeting, 2017.

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Last updated: 3 Sep 2024

Massimo Mastrangeli

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