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This paper presents the development and implantation of an ultra-small wireless sensor node with low power consumption for body temperature monitoring of a ‘white mouse’. Feasibility of the sensor and bio-compatibility of the package were investigated and discussed. Performance of the sensor node was then evaluated. The results demonstrated that more accurate bio-logical information can be obtained...
Pursuit of the lowest size-limit of wireless sensor nodes may not only reduce power consumption and production cost, but also enables its layout-free ubiquitous applications, i.e., in our green sensor networks to compress energy consumption through visibility and optimization. In this paper, we engaged in developing the world smallest wireless sensor node with ultralow power consumption from both...
In this paper, a flexible approach for chip to wafer high-accurate alignment and bonding is developed using a self-assembled monolayer (SAM). In this approach, a hydrophobic SAM, FDTS , is successfully patterned by lift-off process on an oxidized silicon wafer to define the binding-sites. A certain volume of ...
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