Barbara Marshik-Guerts scite author profile

We have developed the WPI cavitational materials process for the production of phasepure, nanostructured materials. Hydrodynamic cavitation is generated mechanically using a high-pressure fluid system. The method begins with a precipitant stream that experiences a large pressure drop (21 000 psi ambient) across a patented geometry interaction chamber. Due to the large pressure drop, bubbles are formed and collapse, causing localized heating of the solvent. In addition, the precipitate undergoes a high degree of mechanical shear in the interaction chamber. This paper deals with the application of this novel technique to the synthesis of several nanostructured oxides. The nanophase oxides are characterized using transmission electron microscopy, X-ray diffraction, thermal gravimetric analysis, differential scanning calorimetry, and Fourier transform infrared spectroscopy. Select area diffraction patterns of the dried (110 °C) oxide samples in this study show distinct rings indicating nanosized particles. This is corroborated by peak breadth measurements in the X-ray diffraction patterns of the calcined samples. A comparison is made between cavitation syntheses and classical coprecipitation.

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The Synthesis of Nanostructured Pure-Phase Catalysts by Hydrodynamic Cavitation

Moser

Sunstrom

Marshik-Guerts

1996

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Barbara Marshik-Guerts

An in situ CIR-FTIR investigation of process effects in the nickel catalyzed carbonylation of methanol

The mechanism of the phosphine-modified nickel-catalyzed acetic acid process

General Route to Nanocrystalline Oxides by Hydrodynamic Cavitation

The Synthesis of Nanostructured Pure-Phase Catalysts by Hydrodynamic Cavitation

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