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Optimizing the optical properties of reduced‐dimensionality materials requires characterization at the relevant length scale, often below the diffraction limit. On page 5693, D. F. Ogletree and co‐workers review the current state of the art for 0D, 1D, and 2D nanomaterials, including novel techniques like the Molecular Foundry's Campanile probe.
Reduced‐dimensionality materials for photonic and optoelectronic applications including energy conversion, solid‐state lighting, sensing, and information technology are undergoing rapid development. The search for novel materials based on reduced‐dimensionality is driven by new physics. Understanding and optimizing material properties requires characterization at the relevant length scale, which is...
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