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In article number 2101170, Bilu Liu, Hui‐Ming Cheng, and co‐workers synthesize atomically thin nanoribbons to exploit the property of materials with the physical limits of both thickness and width. The electronic and optoelectronic measurements of nanoribbons possess decent performance in terms of mobility, on/off ratio, and photoresponsivity, suggesting a platform to study the properties and applications...
1D materials have attracted significant research interest due to their unique quantum confinement effects and edge‐related properties. Atomically thin 1D nanoribbons are particularly interesting because it is a valuable platform with the physical limits of both thickness and width. Here, a catalyst‐free growth method is developed and the growth of Bi2O2Se nanostructures with tunable dimensionality...
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