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[Research Highlights Vol.56] How Do Neuromorphic Nanowire Networks Find Routes to Convey Signals?
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[Research Highlights Vol.1] Atomic Nano-Switches Emulate Human Memory
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[Research Highlights Vol.2] High-Performance Thin Film Boost for Electronics Research
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[Research Highlights Vol.3] Bone tissue engineering: Attaching proteins for better regeneration
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[Research Highlights Vol.4] On-Demand Synaptic Electronics: Circuits that learn and forget
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[Research Highlights Vol.5] Detecting caesium with naked eyes
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[Research Highlights Vol.6] Inorganic materials display massive and instantaneous swelling and shrinkage
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[Research Highlights Vol.7] Smart anticancer nanofibers: Setting treatments to work together
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[Research Highlights Vol.8] Crystal film growth: nanosheets extend epitaxial growth applications
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[Research Highlights Vol.9] 3D Strutted-Graphene by a Sugar Blowing Method
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[Research Highlights Vol.10] In Situ Bandgap Tuning of Graphene Oxide Achieved by Electrochemical Bias
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[Research Highlights Vol.11] A simple way to treat kidney failure
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[Research Highlights Vol.13] Oxide nanosheets trump current state-of-the art capacitor materials
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[Research Highlights Vol.12] Heart cells respond to stiff environments
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[Research Highlights Vol.14] Nanomechanical sensors detect cancer from breath
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[Research Highlights Vol.15] Revealing the "Scotch-tape" technique mechanism
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[Research Highlights Vol.16] A cool approach to flexible electronics
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[Research Highlights Vol.17] Atomic Switch Networks for Cognitive Technology
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[Research Highlights Vol.18] Intracellular imaging gets interactive
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[Research Highlights Vol.19] Visualizing superconductive coupling over atomic steps
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