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In article number 1806993, Uli Wiesner and co‐workers describe a novel concept for the synthesis of amorphous quantum nanomaterials in the form of ultrasmall silica nanoparticles referred to as Cornell dots (C dots) in which chemically tuning the local amorphous silica environment over a range of compositions enables exquisite control over the quantum behavior of encapsulated π‐electron dye systems...
In quantum materials, macroscopic behavior is governed in nontrivial ways by quantum phenomena. This is usually achieved by exquisite control over atomic positions in crystalline solids. Here, it is demonstrated that the use of disordered glassy materials provides unique opportunities to tailor quantum material properties. By borrowing ideas from single‐molecule spectroscopy, single delocalized π‐electron...
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