2011
DOI: 10.1021/jp202644d
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Magnetic Nickel–Phosphorus/Polymer Composite and Remotely Driven Three-Dimensional Micromachine Fabricated by Nanoplating and Two-Photon Polymerization

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Cited by 46 publications
(30 citation statements)
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References 39 publications
(46 reference statements)
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“…This process is applicable for the production of not only optically driven micromachines but also magnetically driven micromachines [13]. In this method, after fabrication of polymeric micromachines by two-photon microfabrication, the polymeric micromachines were subsequently metallized by electroless plating.…”
Section: 2mentioning
confidence: 99%
“…This process is applicable for the production of not only optically driven micromachines but also magnetically driven micromachines [13]. In this method, after fabrication of polymeric micromachines by two-photon microfabrication, the polymeric micromachines were subsequently metallized by electroless plating.…”
Section: 2mentioning
confidence: 99%
“…In MPP technique, the femtosecond laser is tightly focused into the photoresist and scanned according to the preprogrammed pattern. Then, the photoresist is developed and the desired 3D micro/nanostructures after the photopolymerization can be fabricated [16,17]. In MPR process, the femtosecond laser is focused into metal-ion aqueous solutions or metal/polymer nanocomposites.…”
Section: Protocol Of Multiphoton Nanofabricationmentioning
confidence: 99%
“…Direct femtosecond laser writing of lithographic patterns is reported with submicron feature width on thin positive photoresist film. A lot of microstructures, such as 3D photonic crystals [25] and MEMS [16] have been fabricated with negative photoresists by the MPP. The functional negative photoresists, such as nanocomposite-doped and metal-ion-doped photoresist, have been used for fabricating various micro/nanodevices [11].…”
Section: Multiphoton Polymerizationmentioning
confidence: 99%
“…Micromachines have caught ever‐increasing attention due to advantageous abilities manifested in microscale applications, which otherwise are difficult to achieve by macrocounterparts. They have proven values in a variety of applications including electronics, microfluidics, biosensors, robotics, diseases diagnosis, wireless communication, etc. Nevertheless, in contrast to macrodevices, precise manipulation of micromachines is still a critical issue especially for those used in harsh environments and enclosed situations such as in vivo organisms .…”
Section: Introductionmentioning
confidence: 99%