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180. Cages meet gels: smart materials with dual porosity

180. Cages meet gels: smart materials with dual porosity

179. Electrically-induced mixed valence increases the conductivity of copper helical metallopolymers

179. Electrically-induced mixed valence increases the conductivity of copper helical metallopolymers

178. Controlling the Shape and Chirality of an Eight-crossing Molecular Knot

178. Controlling the Shape and Chirality of an Eight-crossing Molecular Knot

177. Metal–organic cages for molecular separations

177. Metal–organic cages for molecular separations

176. LaIII and ZnII Cooperatively Template a Metal-Organic Capsule

176. LaIII and ZnII Cooperatively Template a Metal-Organic Capsule

175. Selective Anion Binding Drives the Formation of AgI8L6 and AgI12L6 Six-Stranded Helicates

175. Selective Anion Binding Drives the Formation of AgI8L6 and AgI12L6 Six-Stranded Helicates

174.  Glucose Binding Drives Reconfiguration of a Dynamic Library of Urea-Containing Metal-Organic Assemblies

174. Glucose Binding Drives Reconfiguration of a Dynamic Library of Urea-Containing Metal-Organic Assemblies

178. Controlling the Shape and Chirality of an Eight-crossing Molecular Knot

178. Controlling the Shape and Chirality of an Eight-crossing Molecular Knot

177. Metal–organic cages for molecular separations

177. Metal–organic cages for molecular separations

176. LaIII and ZnII Cooperatively Template a Metal-Organic Capsule

176. LaIII and ZnII Cooperatively Template a Metal-Organic Capsule

175. Selective Anion Binding Drives the Formation of AgI8L6 and AgI12L6 Six-Stranded Helicates

175. Selective Anion Binding Drives the Formation of AgI8L6 and AgI12L6 Six-Stranded Helicates

174.  Glucose Binding Drives Reconfiguration of a Dynamic Library of Urea-Containing Metal-Organic Assemblies

174. Glucose Binding Drives Reconfiguration of a Dynamic Library of Urea-Containing Metal-Organic Assemblies