Janine Schwiertz scite author profile

The energetics of the reaction between Ca(NO3)2(aq) and (NH4)2HPO4(aq) leading to the formation of calcium phosphate nanoparticles was investigated by flow calorimetry. The relationship between the observed enthalpy change, the pH of the (NH4)2HPO4(aq) solution, and the elemental composition and morphology of the obtained compounds was studied. Results of elemental analysis, combined thermogravimetry−infrared spectroscopy, X-ray powder diffraction, and scanning electron microscopy showed that the change of the pH during the precipitation reaction through the addition of controlled amounts of NaOH(s) to the (NH4)2HPO4(aq) solution leads to significant and reproducible changes of the chemical composition, morphology, and amorphous character of the obtained materials. These changes are reflected by the corresponding enthalpy of reaction, which seems to be predominantly determined by the differences in chemical composition.

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Thermally switchable dispersions of thermochromic Ag2HgI4 nanoparticles

Schwiertz

Geist

Epple

2009

Dalton Trans.

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Thermochromic Ag(2)HgI(4) nanoparticles were prepared by rapid precipitation from aqueous solution. Stable colloids were formed by coating the particles with four different polymers, respectively. The four resulting systems of functionalised Ag(2)HgI(4) nanoparticles were characterised with respect to their polymer content (elemental analysis), particle size (dynamic light scattering, scanning electron microscopy), optical properties in dispersion (UV spectroscopy), crystallinity (X-ray powder diffraction), and thermochromic transition temperature (differential scanning calorimetry) and also compared to the unfunctionalised bulk phase Ag(2)HgI(4). Stable dispersions with a reversible temperature-induced colour change from yellow to orange (T(trs) = 25-40 degrees C) were obtained.

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