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Linear Calcium Carbonate Chains by Directional Control of Ionic Bonding

Kangren Kong, Jie Wang, Pilan Zhang, Xiaoming Ma, Yifei Xu, Zaiqiang Ma, Yanhua Sang, Zhisen Zhang, Tianren Liu, Chuanhong Jin, Zhaoming Liu, Ruikang Tang

2024The Journal of Physical Chemistry Letters13 citationsDOI

Abstract

As a result of the non-directionality of ionic bonds, oppositely charged ions always assemble into closely packed clusters or crystals rather than linear structured ionic species. Here, we generated a series of linear calcium carbonate chains, (Ca 2+ CO 3 2– ) n, with an orientated directionality of the ionic interactions. The formation of these ionic chains with long-range ordered ionic interactions was originally induced by the dipole orientation of the ions and subsequently preserved by capping agents. According to the appropriately established folding–capping model, rational control of the capping effect can regulate the length of the (Ca 2+ CO 3 2– ) n chain within 100 nm, corresponding to n ≤ 250. Our discovery overturns the current understanding of ionic bonding in chemistry and opens a way to control the assembly of inorganic ions at molecular scale, pushing forward a fusion of molecular compounds and ionic compounds that share similar topological control.

Topics & Concepts

Calcium carbonateIonic bondingCalciumChemistryCarbonateChemical engineeringOrganic chemistryIonEngineeringCalcium Carbonate Crystallization and InhibitionPolymer composites and self-healingCrystallography and molecular interactions
Linear Calcium Carbonate Chains by Directional Control of Ionic Bonding | Litcius