Open Access
Molecular self-assembly and nanochemistry: A chemical strategy for the synthesis of nanostructures
TLDR
In this article, self-assembly is defined as the spontaneous association of molecules under equilibrium conditions into stable, structurally well-defined aggregates joined by noncovalent bonds.Abstract:
Molecular self-assembly is the spontaneous association of molecules under equilibrium conditions into stable, structurally well-defined aggregates joined by noncovalent bonds. Molecular self-assembly is ubiquitous in biological systems and underlies the formation of a wide variety of complex biological structures. Understanding self-assembly and the associated noncovalent interactions that connect complementary interacting molecular surfaces in biological aggregates is a central concern in structural biochemistry. Self-assembly is also emerging as a new strategy in chemical synthesis, with the potential of generating nonbiological structures with dimensions of 1 to 10(2) nanometers (with molecular weights of 10(4) to 10(10) daltons). Structures in the upper part of this range of sizes are presently inaccessible through chemical synthesis, and the ability to prepare them would open a route to structures comparable in size (and perhaps complementary in function) to those that can be prepared by microlithography and other techniques of microfabrication.read more
Citations
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Fresh perspectives for surface coordination chemistry
TL;DR: In this article, it was shown that well-defined surfaces similarly represent versatile platforms to conduct metal-ligand reactions in two dimensions and engineer unique coordination compounds or layers by novel complexation or metal-directed assembly protocols.
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Amphiphilic peptides and their cross-disciplinary role as building blocks for nanoscience
TL;DR: The cross-disciplinary role of peptide-based supramolecular nanoarchitectures ranging from chemistry to biology, medicine, materials science, and engineering is reviewed through discussing several examples of applied nanomaterials.
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A new DNA nanostructure, the G-wire, imaged by scanning probe microscopy
TL;DR: The atomic force microscope (AFM) is used to explore the structural characteristics of long, linear polymers formed by the telomeric oligonucleotide d(GGGGTTGGGG) in the presence of specific metal cations, which could provide a basis for developing advanced biomaterials.
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Bioinspired Nanocomposite Hydrogels with Highly Ordered Structures
TL;DR: The critical design criteria and the state-of-the-art fabrication strategies of nanocomposite hydrogels with highly ordered structures are systemically reviewed and recent progress in applications in the fields of soft actuators, tissue engineering, and sensors is highlighted.
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Self‐Assembly of 2,8,14,20‐Tetraisobutyl‐5,11,17,23‐tetrahydroxyresorc[4]arene
Thorsten Gerkensmeier,Waldemar Iwanek,Ceno Agena,Roland Fröhlich,Sirpa Kotila,Christian Näther,Jochen Mattay +6 more
TL;DR: In this paper, a hexameric structure of a hydroxyresorc[4]arene in the solid state, enclosing a large interior space, was observed, and the tendency of aggregates in solution was demonstrated mainly by means of ESI-MS methods.
References
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Folding DNA to create nanoscale shapes and patterns
TL;DR: This work describes a simple method for folding long, single-stranded DNA molecules into arbitrary two-dimensional shapes, which can be programmed to bear complex patterns such as words and images on their surfaces.
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Fabrication of novel biomaterials through molecular self-assembly.
TL;DR: Two complementary strategies can be used in the fabrication of molecular biomaterials as discussed by the authors : chemical complementarity and structural compatibility, both of which confer the weak and noncovalent interactions that bind building blocks together during self-assembly.
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Supramolecular Chemistry—Scope and Perspectives Molecules, Supermolecules, and Molecular Devices (Nobel Lecture)
TL;DR: Developments in molecular and supramolecular design and engineering open perspectives towards the realization of molecular photonic, electronic, and ionic devices that would perform highly selective recognition, reaction, and transfer operations for signal and information processing at the molecular level.