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Chemical vapor deposition coating for micromachines

Materials Research Society Symposium - Proceedings

Mani, S.S.; Fleming, J.G.; Sniegowski, Jeffry J.; De Boer, Maarten P.; Irwin, L.W.; Walraven, J.A.; Tanner, D.M.; Dugger, Michael T.

Two major problems associated with Si-based MEMS devices are stiction and wear. Surface modifications are needed to reduce both adhesion and friction in micromechanical structures to solve these problems. In this paper, we will present a process used to selectively coat MEMS devices with tungsten using a CVD (Chemical Vapor Deposition) process. The selective W deposition process results in a very conformal coating and can potentially solve both stiction and wear problems confronting MEMS processing. The selective deposition of tungsten is accomplished through silicon reduction of WF6, which results in a self-limiting reaction. The selective deposition of W only on polysilicon surfaces prevents electrical shorts. Further, the self-limiting nature of this selective W deposition process ensures the consistency necessary for process control. Selective tungsten is deposited after the removal of the sacrificial oxides to minimize process integration problems. This tungsten coating adheres well and is hard and conducting, requirements for device performance. Furthermore, since the deposited tungsten infiltrates under adhered silicon parts and the volume of W deposited is less than the amount of Si consumed, it appears to be possible to release stuck parts that are contacted over small areas such as dimples. Results from tungsten deposition on MEMS structures with dimples will be presented. The effect of wet and vapor phase cleans prior to the deposition will be discussed along with other process details. The W coating improved wear by orders of magnitude compared to uncoated parts. Tungsten CVD is used in the integrated-circuit industry, which makes this approach manufacturable.

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Current status of three-dimensional silicon photonic crystals operating at infrared wavelengths

Proceedings of SPIE - The International Society for Optical Engineering

Lin, Shawn-Yu L.; Fleming, J.G.; Sigalas, M.M.; Biswas, R.; Ho, K.M.

An overview is given on the current status of three-dimensional (3D) photonic crystals. The realization of new 3d photonic crystal structures, the creation of high Q microcavities and the building of waveguide bends are presented. These devices form the basic building blocks for applications in signal processing and low threshold lasers.

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Results 26–27 of 27
Results 26–27 of 27