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Here we propose a new approach, based on cavitation mechanism, to enhance the stimulation technology for developing effective EGS reservoirs.


The ability to selectively control microstructural stability and alter transformation kinetics through application of high-strength magnetic fields provides a robust mechanism to develop and tailor enhanced microstructures with superior properties through a more efficient proc

The Liquid Salt Environmental Creep Stress Rupture Testing System can test creep stress rupture properties of materials in corrosive liquid environment at temperatures up to 1000°C. The system provides solutions to the major problems in such testing, i.e.

The invention comprises functionalization of lignin precursors to control and optimize physical properties of lignin carbon fibers, such as microporosity, crystallinity and turbostratic disorder.

The present invention describes a new class of heterobimetallic chabazites that exhibit excellent NOX reduction under NH3-SCR conditions in 150-650 °C range. The new compositions retain their activity even after hydrothermal aging.

The structural and magnetic properties of earth-abundant Fe-based shape-memory alloys (SMA) indicate that the material shows strong indications of a potential for very strong magnetocaloric effect (MCE), however these recently discovered alloys have not been evaluated for such

The present invention for making graphene was developed for atmospheric pressure conditions in contrast to conventional methods, which employ a low pressure deposition. Atmospheric deposition conditions constitute a major advantage for synthesis of continuous graphene sheets.

Large modulation of the band gap is critically important, but often elusive in designing and tuning certain material systems.