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Article
Coherent photoexcitation of entangled triplet pair states
The functional properties of organic semiconductors are defined by the interplay between optically bright and dark states. Organic devices require rapid conversion between these bright and dark manifolds for m...
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Article
Highly entangled polyradical nanographene with coexisting strong correlation and topological frustration
Open-shell nanographenes exhibit unconventional π-magnetism arising from topological frustration or strong electron–electron interaction. However, conventional design approaches are typically limited to a sing...
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Article
Intelligent synthesis of magnetic nanographenes via chemist-intuited atomic robotic probe
Atomic-scale manufacturing of carbon-based quantum materials with single-bond precision holds immense potential in advancing tailor-made quantum materials with unconventional properties, which are crucial in d...
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Article
Synthesis of monolayer and persistent bilayer graphene fragments by using a radical-mediated coupling approach
Atomically precise single-layer graphene fragments show size- and edge-dependent electronic properties and are promising materials for electronics, photonics and spintronics. However, their synthesis has been ...
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Article
Synthesis and chiral resolution of a triply twisted Möbius carbon nanobelt
The atomically precise synthesis of topological molecular carbons such as Möbius carbon nanobelts (MCNBs) is a challenge in synthetic organic chemistry because it requires careful control of both twist and str...
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Article
3D global aromaticity in a fully conjugated diradicaloid cage at different oxidation states
Aromaticity is a vital concept that governs the electronic properties of π-conjugated organic molecules and has long been restricted to 2D systems. The aromaticity in 3D π-conjugated molecules has been rarely ...
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Reference Work Entry In depth
Molecular Graphene
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Living Reference Work Entry In depth
Molecular Graphene
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Chapter
Closed-Shell and Open-Shell 2D Nanographenes
This chapter describes a series of two-dimensional (2D) expanded arene networks, also known as nanographenes, with either closed-shell or open-shell electronic structure in the ground state. These systems are ...
