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W2896766718 endingPage "386" @default.
W2896766718 startingPage "361" @default.
W2896766718 abstract "In this chapter, we highlight the opportunity afforded as nanoelectronics are grafted onto or merged into systems with the size and properties of colloids. This grants such systems, first and foremost, with mobility and the ability to access spaces and environments forbidden to conventional, larger electronic systems. Historically nanoelectronic circuit elements were synthesized in place using methods such as chemical vapor deposition, offering limited options for the assembly of as-synthesized components. However, recent advances in 2D materials allow for transfer and grafting of fully formed nanostructures onto unconventional substrates via printing or solution casting methods. The concept of colloidal electronics is a recent advance and constitutes a field in its infancy whose direction and promise are explored in this chapter. We consider the advantages of such systems, such as the ability to collect data from unique environments—such as the human gastrointestinal (GI) tract, microfluidic channels, and chemical/biosynthetic reactors—as well as remote locations like oil and gas conduits, geological materials, waterbodies, soil, or the atmosphere. As we will explore in this chapter, the emerging library of two-dimensional materials (2DMs) with their exotic properties is an opportunity to graft electronics onto mobile colloidal particles, enabling microrobotic Synthetic Cells, or Colloidal State Machines, with low energy consumption and complex functions." @default.
W2896766718 created "2018-10-26" @default.
W2896766718 creator A5002386258 @default.
W2896766718 creator A5041330438 @default.
W2896766718 creator A5051751309 @default.
W2896766718 creator A5057175644 @default.
W2896766718 creator A5072061094 @default.
W2896766718 date "2019-01-01" @default.
W2896766718 modified "2023-09-28" @default.
W2896766718 title "Synthetic Cells: Colloidal-sized state machines" @default.
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W2896766718 doi "https://doi.org/10.1016/b978-0-08-102260-3.00015-9" @default.
W2896766718 hasPublicationYear "2019" @default.
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