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Vibration Energy Harvesting and Its Application for Nano- and Microrobotics Junjun Ding, Vinod R. Challa, M. G. Prasad and Frank T. Fisher

Abstract In this chapter, the concept of vibration energy harvesting and its potential utilization as a power source for micro/nanorobots is introduced and discussed. While batteries are commonly used as power sources for electronic devices, the limited lifetime and relatively large dimensional structure of batteries constrain its applications in micro/nanodevices. On the other hand, while capacitors have an extremely compact structure, the power stored is generally considered too low to power micro/ nanorobots for a sufficiently long period of time. Hence, energy harvesting approaches, either alone or in conjunction with more traditional power sources, are being investigated to provide sufficient power for micro/nanorobots over the design lifetime of the system. In general, several varieties of energy harvesting techniques and devices have been developed to transfer different energy sources that may be present in a particular environment into electrical power; for example, solar, thermal, mechanical vibration, and even wind energy can be used as the source for energy harvesting devices in appropriate applications. However, specifically considering micro/nanodevices for biomedical applications greatly restricts the potential energy sources that can be harvested for system power. In this case, mechanical (vibration) energy may serve as a useful environmental source for energy harvesting. The purpose of this chapter is to first introduce the reader to the general field of energy harvesting, after which the discussion will focus on mechanical vibration energy harvesting and other techniques with potentially greater application to biomedical nano/microrobotics. In particular, different vibration energy harvesting mechanisms, such as electromagnetic, electrostatic, and piezoelectric techniques, will then be presented. The chapter concludes with recent work being done in the field of nanotechnology to further extend these energy harvesting approaches to size scales compatible with nano/micro devices and systems.

J. Ding  V. R. Challa  M. G. Prasad  F. T. Fisher (&) Department of Mechanical Engineering, Stevens Institute of Technology, Hoboken, NJ 07030, USA e-mail: [email protected]

Y. Guo (ed.), Selected Topics in Micro/Nano-Robotics for Biomedical Applications, DOI: 10.1007/978-1-4419-8411-1_5, Ó Springer Science+Business Media New York 2013

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5.1 Introduction In the most general terms, energy harvesting (also referred to as energy scavenging or power harvesting in the literature) describes a process whereby energy in a given environment is transferred into a more useful form of electrical energy. Energy is the amount of power consumed, expressed in watt-hours or kilowatthours, while power is often expressed in watts or kilowatts. Energy is equal to the power multiplied by the time of consumption. Thus, in specific terms energy harvesting is some

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