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Crystal engineering with copper and melamine

Ignacio Bernabé, Shiraz Ahmed Siddiqui, Alexander Roller, M. Eisterer, Hidetsugu Shiozawa

2021RSC Advances12 citationsDOIOpen Access PDF

Abstract

Coordination complexes and polymers are central in inorganic and materials chemistry as a variety of metal centers and coordination geometries lead to a diverse range of interesting properties. Here, size and structure control of gem-like quality monocrystals is demonstrated at room temperature. Using the same set of precursors, the copper-to-melamine molar ratio is adjusted to synthesize either a novel coordination complex of dinuclear copper and melamine (Cu2M1), or a barely-studied coordination polymer of zigzag copper-chlorine chains (Cu4M1). Crystals of the former are dark green and square with a size up to 350 μm across. The latter is light green, octagonal, and as large as 5 mm across. The magnetic properties of both crystals reflect the low-dimensional arrangements of copper. The magnetic susceptibility of Cu2M1 is modelled with a spin-1/2 dimer, and that of Cu4M1 with a spin-1/2 one-dimensional Ising chain. Controlled synthesis of such quality magnetic crystals is a prerequisite for various magnetic and magneto-optical applications.

Topics & Concepts

MelamineCopperCrystal engineeringCrystal (programming language)Materials scienceChemistryCrystal structureCrystallographyComputer scienceMetallurgyOrganic chemistryProgramming languageSupramolecular chemistryMetal-Organic Frameworks: Synthesis and ApplicationsMagnetism in coordination complexesMelamine detection and toxicity
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