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Craig R. Friedrich
Researcher at Michigan Technological University
Publications - 83
Citations - 1743
Craig R. Friedrich is an academic researcher from Michigan Technological University. The author has contributed to research in topics: Machining & Dielectrophoresis. The author has an hindex of 22, co-authored 83 publications receiving 1565 citations. Previous affiliations of Craig R. Friedrich include Louisiana Tech University.
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Development of the micromilling process for high-aspect-ratio microstructures
TL;DR: In this article, the focused-ion beam machining process is used to create trench-like features with nearly vertical sidewalls and good smoothness, which can be used to fabricate mold and mask features.
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Wettability changes of TiO 2 nanotube surfaces
TL;DR: It was found that the TNT surface became more hydrophobic when aged in air over a period of three months, suggesting that the surface wettability can be changed due to alkane contamination and organic contaminants in an ambient atmosphere.
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The miniaturization technologies: past, present, and future
TL;DR: The history of the major technologies that are utilized in MEMS, microelectromechanical systems, micro systems technologies, and micromanufacturing has become synonymous with the design, development, and manufacture of very small devices and systems.
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Tuning Li2O2 Formation Routes by Facet Engineering of MnO2 Cathode Catalysts.
Wentao Yao,Yifei Yuan,Yifei Yuan,Guoqiang Tan,Cong Liu,Meng Cheng,Vitaliy Yurkiv,Xuanxuan Bi,Fei Long,Craig R. Friedrich,Farzad Mashayek,Khalil Amine,Khalil Amine,Jun Lu,Reza Shahbazian-Yassar,Reza Shahbazian-Yassar +15 more
TL;DR: Facet engineering of cathode catalysts could be a new way to tune the formation route of Li2O2 in a low-donor-number electrolyte and it is anticipated that this new finding would open more choices for the design of lithium-oxygen batteries with high capacities and ultimately long cycle life.
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Direct compressive measurements of individual titanium dioxide nanotubes.
TL;DR: The mechanical compressive properties of individual thin-wall and thick-wall TiO(2) nanotubes were directly measured for the first time and it was found that the Young's modulus depended on the diameter and wall thickness of the nanotube and is in the range of 23-44 GPa.