Alison Haymaker scite author profile

The synthesis of crystalline one-dimensional polymers provides a fundamental understanding about the structure–property relationship in polymeric materials and allows the preparation of materials with enhanced thermal, mechanical, and conducting properties. However, the synthesis of crystalline one-dimensional polymers remains a challenge because polymers tend to adopt amorphous or semicrystalline phases. Herein, we report the synthesis of a crystalline one-dimensional polymer in solution by dynamic covalent chemistry. The structure of the polymer has been unambiguously confirmed by microcrystal electron diffraction that together with charge transport studies and theoretical calculations show how the π-stacked chains of the polymer generate optimal channels for charge transport.

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Structure determination of a DNA crystal by MicroED

Haymaker

Bardin

Gonen

et al. 2023

Preprint

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Microcrystal electron diffraction (MicroED) is a powerful tool for determining high-resolution structures of microcrystals from a diverse array of biomolecular, chemical, and material samples. In this study, we apply MicroED to DNA crystals, which have not been previously analyzed using this technique. We utilized the d(CGCGCG)2 DNA duplex as a model sample and employed cryo-FIB milling to create thin lamella for diffraction data collection. The MicroED data collection and subsequent processing resulted in a 1.10 angstrom resolution structure of the d(CGCGCG)2 DNA, demonstrating the successful application of cryo-FIB milling and MicroED to the investigation of nucleic acid crystals.

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Structure determination of a DNA crystal by MicroED

et al. 2023

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Alison Haymaker

A Crystalline 1D Dynamic Covalent Polymer

Structure determination of a DNA crystal by MicroED

Structure determination of a DNA crystal by MicroED

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