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204. Systematic construction of progressively larger capsules from a fivefold linking pyrrole-based subcomponent

204. Systematic construction of progressively larger capsules from a fivefold linking pyrrole-based subcomponent

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203. Light-Powered Reversible Guest Release and Uptake from Zn4L4 Capsules

203. Light-Powered Reversible Guest Release and Uptake from Zn4L4 Capsules

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202. Allosterically Regulated Guest Binding Determines Framework Symmetry for an FeII4L4 Cage

202. Allosterically Regulated Guest Binding Determines Framework Symmetry for an FeII4L4 Cage

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201. Subtle Stereochemical Effects Influence Binding and Purification Abilities of an FeII4L4 Cage

201. Subtle Stereochemical Effects Influence Binding and Purification Abilities of an FeII4L4 Cage

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200. A Double-Walled Tetrahedron with AgI4 Vertices Binds Different Guests in Distinct Sites

200. A Double-Walled Tetrahedron with AgI4 Vertices Binds Different Guests in Distinct Sites

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199. Tetramine Aspect Ratio and Flexibility Determine Framework Symmetry for Zn8L6 Self-Assembled Structures

199. Tetramine Aspect Ratio and Flexibility Determine Framework Symmetry for Zn8L6 Self-Assembled Structures

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198. Enantioselective fullerene functionalization through stereochemical information transfer from a self-assembled cage

198. Enantioselective fullerene functionalization through stereochemical information transfer from a self-assembled cage

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197. Host Spin‐Crossover Thermodynamics Indicate Guest Fit

197. Host Spin‐Crossover Thermodynamics Indicate Guest Fit

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196. The fullerene awakens

196. The fullerene awakens

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195. Supramolecular Self‐Assembly as a Tool to Preserve Electronic Purity of Perylene Diimide Chromophores

195. Supramolecular Self‐Assembly as a Tool to Preserve Electronic Purity of Perylene Diimide Chromophores

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194. Incorporation of a Phosphino (pyridine) Subcomponent Enables the Formation of Cages with Homobimetallic and Heterobimetallic Vertices

194. Incorporation of a Phosphino (pyridine) Subcomponent Enables the Formation of Cages with Homobimetallic and Heterobimetallic Vertices

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193. Beyond Platonic: How to Build Metal–Organic Polyhedra Capable of Binding Low-Symmetry, Information-Rich Molecular Cargoes

193. Beyond Platonic: How to Build Metal–Organic Polyhedra Capable of Binding Low-Symmetry, Information-Rich Molecular Cargoes

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