Journal ArticleDOI
A polymeric microgripper with integrated thermal actuators
TLDR
In this paper, a polymeric micro gripper with integrated thermal actuators is presented, which offers the advantage of large displacement and gentle handling forces, which may be ideal for handling bioparticles such as cells.Abstract:
This paper describes the design, simulation, fabrication and characterization of a polymeric microgripper with integrated thermal actuators. The microgripper was fabricated by a polymeric surface micromachining process, which utilizes SU-8 as the functional material and silicon as the sacrificial material. A thin double layer of titanium and platinum was evaporated on the gripper structure and served as the electrically conducting and heat dissipating material. The polymeric microgripper offers the advantage of large displacement and gentle handling forces, which may be ideal for handling bioparticles such as cells. Furthermore, an operating temperature below 100 °C allows the handling of living cells and tissues. The unique characteristic that SU-8 does not soften at elevated temperature allows the use of thermal actuation for the microgripper. To the best knowledge of the authors, the presented device is the first polymeric microgripper with integrated actuators. Each thermal actuator consists of two thin arms and one thick arm. Heat is generated by electrical current passing through the thin titanium/platinum on top of the 100 µm thick SU-8 structure. Based on an electrical/thermal/structural coupled simulation, the gripper can operate in both normally closed mode and normally open mode. The different electrical configurations of the gripper arms allow this flexibility. Results of the simulation and the measurement are also presented in this paper.read more
Citations
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Journal ArticleDOI
Micromixers?a review
Nam-Trung Nguyen,Zhigang Wu +1 more
TL;DR: In this paper, the authors report the progress on the recent development of micromixers and present different types and designs of active and passive MCMs, as well as the operation points of the MCMs.
Journal ArticleDOI
New materials for micro-scale sensors and actuators An engineering review
Stephen A. Wilson,Renaud Jourdain,Qi Zhang,Robert A. Dorey,Christopher R. Bowen,Magnus Willander,Qamar Ul Wahab,Safaa Al-Hilli,Omer Nur,Eckhard Quandt,Christer Johansson,E. Pagounis,Manfred Kohl,Jovan Matovic,Björn Samel,Wouter van der Wijngaart,Edwin Jager,Daniel O Carlsson,Zoran Djinovic,Michael Wegener,Carmen Moldovan,Rodica Iosub,E. Abad,Michael Wendlandt,Cristina Rusu,Katrin Persson +25 more
TL;DR: In this paper, a detailed overview of developments in transducer materials technology relating to their current and future applications in micro-scale devices is provided. And a short discussion of structural polymers that are extending the range of micro-fabrication techniques available to designers and production engineers beyond the limitations of silicon fabrication technology is presented.
Journal ArticleDOI
Self-Folding Thermo-Magnetically Responsive Soft Microgrippers
Joyce C. Breger,ChangKyu Yoon,Rui Xiao,Hye Rin Kwag,Martha O. Wang,John P. Fisher,Thao D. Nguyen,David H. Gracias +7 more
TL;DR: This work designs, fabricate, and characterize photopatterned, self-folding functional microgrippers that combine a swellable, photo-cross-linked pNIPAM-AAc soft-hydrogel with a nonswellable and stiff segmented polymer (polypropylene fumarate, PPF).
Journal ArticleDOI
SU-8 as a structural material for labs-on-chips and microelectromechanical systems.
TL;DR: Different SU‐8‐based techniques have led to new low‐temperature processes suitable for the fabrication of a wide range of objects, from the single component to the complete lab‐on‐chip.
Journal ArticleDOI
Review of polymer MEMS micromachining
Brian J. Kim,Ellis Meng +1 more
TL;DR: A broad review of the progress of polymers within MEMS is presented in this paper, including deposition, removal, and release techniques for three widely used MEMS polymer materials, namely SU-8, polyimide, and Parylene C. The application of these techniques to create devices having flexible substrates and novel polymer structural elements for biomedical MEMS (bioMEMS).
References
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Journal ArticleDOI
SU-8: a low-cost negative resist for MEMS
TL;DR: In this paper, the characterization of a home-made negative photoresist developed by IBM is described, called SU-8, which can be produced with commercially available materials and has an outstanding aspect ratio near 15 for lines and 10 for trenches, combined with the electroplating of copper allow the fabrication of highly integrated electromagnetic coils.
Journal ArticleDOI
Analysis and design of polysilicon thermal flexure actuator
TL;DR: In this paper, an analytical model that can accurately predict the performance of a polysilicon thermal flexure actuator has been developed, based on an electrothermal analysis of the actuator, incorporating conduction heat transfer.
Book
Introduction to thermodynamics and heat transfer
TL;DR: The Second Law of Thermodynamics and Heat Transfer as mentioned in this paper is a well-known property of closed systems and has been used extensively in the literature for the analysis of closed-loop systems.
Journal ArticleDOI
Applications for surface-micromachined polysilicon thermal actuators and arrays
John H. Comtois,Victor M. Bright +1 more
TL;DR: In this paper, the authors demonstrate how combinations of two or more electro-thermal actuators can be applied to a variety of basic building-block micromechanical devices.
Proceedings ArticleDOI
Thermo-magnetic metal flexure actuators
TL;DR: In this article, a family of new flexure actuators which can produce very significant motion via thermal expansion and magnetic forces are presented, which are used for microswitch and positioning applications.
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