Facile Approach to Large-Scale Synthesis of 1D Calcium and Titanium Precipitate (CTP) with High Electrorheological Activity

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Abstract

Nanorods of calcium and titanium precipitate (CTP) were prepared via a simple precipitation route in an ethanol/water mixed solution system under mild conditions. The obtained rodlike particles were highly uniform in width (23 ± 3 nm), and its length could be tuned by adjusting the concentration of oxalic acid reactant. The nanorods materials show a promising electrorheological activity, of which ER efficiency was about 4 times higher that of granular CTP suspensions. The facile synthesis route may be regarded as a green chemistry method, and its novelty relies on the large-scale production of 1D CTP giant ER materials.

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