2021
DOI: 10.1021/acs.cgd.1c00787
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Robots Built Robots: Nanorobots Customized by Intelligent Robot

Abstract: Nanorobots can adapt to unstructured environments, operate in confined spaces, and interact with various robots. They are ideal robots for exploration and biomedical applications. However, nanorobots’ precise control and improved nanomagnetic robots’ material quality are still challenging. Artificial intelligence (AI) and robotics breakthroughs have opened up historic opportunities for nanomagnetic robots’ fabrication and synthesis. Here, we provide a method for fabricating magnetic nanorobots with an intellig… Show more

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Cited by 5 publications
(2 citation statements)
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“…To act as an electrode surface, thin gold layer is initially spluttered solely on a single surface of the porosity PC membranes templates with 400 nm diameter micropores. e membranes were put together in the Teflon plated cell, using aluminum foil acting as electric interaction for a following electrodeposition [23]. Utilizing a charge of 0.1 C and a voltage of 0.90 V (against an Ag/AgCl conductor material and a Pt cable as counter electrode), a disposable silver layer was successfully deposited into a branching region of the PC film membrane.…”
Section: Fabrication Of Nanorobotsmentioning
confidence: 99%
“…To act as an electrode surface, thin gold layer is initially spluttered solely on a single surface of the porosity PC membranes templates with 400 nm diameter micropores. e membranes were put together in the Teflon plated cell, using aluminum foil acting as electric interaction for a following electrodeposition [23]. Utilizing a charge of 0.1 C and a voltage of 0.90 V (against an Ag/AgCl conductor material and a Pt cable as counter electrode), a disposable silver layer was successfully deposited into a branching region of the PC film membrane.…”
Section: Fabrication Of Nanorobotsmentioning
confidence: 99%
“…Flexible conductive materials can convert external stimuli, such as stress, strain, temperature, and humidity, into electrical signals (such as current, resistance, and capacitance) [1][2][3]. Due to their unique stimuli-responsive characteristics, flexible conductive materials are commonly used in research fields such as human motion monitoring [4], human health monitoring [5], remote medical control [6], artificial skin [7], and soft robotics [8]. Traditional flexible conductive materials usually consist of flexible substrate materials (PDMS, polyurethane, polyetherimide, and Ecoflex) and rigid conductive materials (such as metal nanomaterials, carbon-based materials, and conductive polymers).…”
Section: Introductionmentioning
confidence: 99%