Metal Coordination Guided Formation of Discrete Neutral Three-Component Hydrogen-Bonded Architectures.

Interesting molecular architectures were obtained by combining heterodimeric quadruple hydrogen-bonding and neutral metal corner braces. The selection of cyclic and noncyclic aggregates from a random mixture of two-component assemblies has been achieved through metal coordination and careful adjustment of monomer rigidity and dimensions.

[1]  L. Pesce,et al.  Self-assembled poly-catenanes from supramolecular toroidal building blocks , 2020, Nature.

[2]  Chia-Hua Wu,et al.  Hydrogen bond design principles , 2020, Wiley interdisciplinary reviews. Computational molecular science.

[3]  K. Rissanen,et al.  Selective Formation of S4- and T-Symmetric Supramolecular Tetrahedral Cages and Helicates in Polar Media Assembled via Cooperative Action of Coordination and Hydrogen-Bonds. , 2020, Journal of the American Chemical Society.

[4]  Feihe Huang,et al.  Supramolecular polymers fabricated by orthogonal self-assembly based on multiple hydrogen bonding and macrocyclic host–guest interactions , 2020 .

[5]  B. Gong,et al.  Hydrogen-Bonded Duplexes with Lengthened Linkers. , 2018, Organic letters.

[6]  G. Niaura,et al.  Stimuli-controlled self-assembly of diverse tubular aggregates from one single small monomer , 2017, Nature Communications.

[7]  D. Appavoo,et al.  Combining coordination and hydrogen-bonds to form arene ruthenium metalla-assemblies , 2016 .

[8]  K. Wärnmark,et al.  A Remarkably Complex Supramolecular Hydrogen-Bonded Decameric Capsule Formed from an Enantiopure C₂-Symmetric Monomer by Solvent-Responsive Aggregation. , 2015, Journal of the American Chemical Society.

[9]  Michael D. Pluth,et al.  Design, synthesis, and characterization of hybrid metal-ligand hydrogen-bonded (MLHB) supramolecular architectures. , 2015, Inorganic chemistry.

[10]  Mikael Lund,et al.  Composition- and size-controlled cyclic self-assembly by solvent- and C60-responsive self-sorting. , 2013, Journal of the American Chemical Society.

[11]  J. de Mendoza,et al.  Self-assembled squares and triangles by simultaneous hydrogen bonding and metal coordination. , 2013, Organic letters.

[12]  Huafeng Yang,et al.  A simple method for graphene production based on exfoliation of graphite in water using 1-pyrenesulfonic acid sodium salt , 2013 .

[13]  J. de Mendoza,et al.  Hydrogen-bonded cyclic tetramers based on ureidopyrimidinones attached to a 3,6-carbazolyl spacer. , 2011, Organic letters.

[14]  Klaus Müllen,et al.  Composites of Graphene with Large Aromatic Molecules , 2009 .

[15]  E. W. Meijer,et al.  The mechanism of ureido-pyrimidinone:2,7-diamido-naphthyridine complexation and the presence of kinetically controlled pathways in multicomponent hydrogen-bonded systems. , 2008, Journal of the American Chemical Society.

[16]  A. Fragoso,et al.  Selective binding and easy separation of C70 by nanoscale self-assembled capsules. , 2007, Angewandte Chemie.

[17]  T. Park,et al.  Interplay of fidelity, binding strength, and structure in supramolecular polymers. , 2006, Journal of the American Chemical Society.

[18]  S. J. Grabowski,et al.  Hydrogen Bonding—New Insights , 2006 .

[19]  T. Park,et al.  A quadruply hydrogen bonded heterocomplex displaying high-fidelity recognition. , 2005, Journal of the American Chemical Society.

[20]  T. Park,et al.  A highly stable quadruply hydrogen-bonded heterocomplex useful for supramolecular polymer blends. , 2005, Journal of the American Chemical Society.

[21]  E. W. Meijer,et al.  Complementary quadruple hydrogen bonding in supramolecular copolymers. , 2005, Journal of the American Chemical Society.

[22]  Zhan-Ting Li,et al.  Novel multiply hydrogen-bonded heterodimers based on heterocyclic ureas. Folding and stability , 2004 .

[23]  Zhan-Ting Li,et al.  Selective rearrangements of quadruply hydrogen-bonded dimer driven by donor-acceptor interaction. , 2003, Chemistry.

[24]  E. W. Meijer,et al.  Quadruple hydrogen bonded systems. , 2003, Chemical communications.

[25]  E. Tiekink,et al.  Dinuclear Platinum Complexes with Hydrogen-Bonding Functionality: Noncovalent Assembly of Nanoscale Cyclic Arrays , 2000 .

[26]  E. W. Meijer,et al.  Stability and Lifetime of Quadruply Hydrogen Bonded 2-Ureido-4[1H]-pyrimidinone Dimers , 2000 .

[27]  E. W. Meijer,et al.  STRONG DIMERIZATION OF UREIDOPYRIMIDONES VIA QUADRUPLE HYDROGEN BONDING , 1998 .

[28]  E. W. Meijer,et al.  Reversible polymers formed from self-complementary monomers using quadruple hydrogen bonding. , 1997, Science.

[29]  C. Perrin,et al.  "Strong" hydrogen bonds in chemistry and biology. , 1997, Annual review of physical chemistry.