Acquisition of critical minerals via refinement from aqueous sources. Technological and geopolitical advantagesinure to conflict-free refinement of rare materials including critical minerals used in production of energy storage devices, among other applications. Additionally, the applied clean tech methods advance environmental goals such as those given in the Paris Agreement. Various site-specific system configurations and corresponding site-specific methods of operation bring to bear a panoply of economically viable approaches to critical mineral refinement. In some approaches, electrical power needed to drive refinement is provided by selected site-specific renewable energy sources. Real-world implementations involve co-locating a dissociative reactor with a geothermal energy plant near a salar or other source (preferably aqueous) of critical minerals therein. Refined critical minerals are produced on site. Deployment of the various site-specific configurations of systems and practice of corresponding site-specific methods reduces or eliminates negative environmental impacts such as those incurred by legacy mining-based techniques.

The invention relates to a process for selectively and continuously extracting a series of desired species from a matrix, comprising the steps of:injecting a plasma (310) in an extraction chamber by means of a plasma torch,continuously monitoring (320) the excited elements extracted from the matrix and contained in the plasma by optical emission spectroscopy, and for each species of the series,setting a distance (330) between the support and the plasma torch, and the composition of the injected plasma as a function of the monitored excited elements so that only one desired species of the series of species is being extracted from the matrix under molecular form, andproviding (400) a plate in the extraction chamber, exterior to the plasma, causing collection of molecules comprising said desired species by deposition onto the surface of the plate.

The invention relates to a process for selectively and continuously extracting a series of desired species from a matrix, comprising the steps of:injecting a plasma (310) in an extraction chamber by means of a plasma torch,continuously monitoring (320) the excited elements extracted from the matrix and contained in the plasma by optical emission spectroscopy, and for each species of the series,setting a distance (330) between the support and the plasma torch, and the composition of the injected plasma as a function of the monitored excited elements so that only one desired species of the series of species is being extracted from the matrix under molecular form, andproviding (400) a plate in the extraction chamber, exterior to the plasma, causing collection of molecules comprising said desired species by deposition onto the surface of the plate.

A method of processing material includes positioning a transmitter to engage an ore sample with a sub-millisecond electromagnetic pulse, the ore sample including a conductive mineral particle and a volume of a gangue, specifying a characteristic of the electromagnetic pulse based on a desired energy deposition for the conductive mineral particle using a processing circuit, and selectively depositing energy with the electromagnetic pulse to at least one of melt and vaporize the conductive mineral particle by controlling the transmitter with the processing circuit.

A method of processing material includes positioning a transmitter to engage an ore sample with a sub-millisecond electromagnetic pulse, the ore sample including a conductive mineral particle and a volume of a gangue, specifying a characteristic of the electromagnetic pulse based on a desired energy deposition for the conductive mineral particle using a processing circuit, and selectively depositing energy with the electromagnetic pulse to at least one of melt and vaporize the conductive mineral particle by controlling the transmitter with the processing circuit.

This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition and properties present in a liquid.

Acquisition of critical minerals via refinement from aqueous sources. Technological and geopolitical advantages inure to conflict-free refinement of rare materials including critical minerals used in production of energy storage devices, among other applications. Additionally, the applied clean tech methods advance environmental goals such as those given in the Paris Agreement. Various site-specific system configurations and corresponding site-specific methods of operation bring to bear a panoply of economically viable approaches to critical mineral refinement. In some approaches, electrical power needed to drive refinement is provided by selected site-specific renewable energy sources. Real-world implementations involve co-locating a dissociative reactor with a geothermal energy plant near a salar or other source (preferably aqueous) of critical minerals therein. Refined critical minerals are produced on site. Deployment of the various site-specific configurations of systems and practice of corresponding site-specific methods reduces or eliminates negative environmental impacts such as those incurred by legacy mining-based techniques.

The present invention relates to a process for the deoxidation of valve metal primary powders by means of reducing metals and/or metal hydrides, and a process for the production of tantalum powders that are suitable as anode material for electrolytic capacitors.

The present invention relates to a process for the deoxidation of valve metal primary powders by means of reducing metals and/or metal hydrides, and a process for the production of tantalum powders that are suitable as anode material for electrolytic capacitors.

A system for using aqueous means for solubilizing chemical components contained in Sulphur type ore concentrate which may contain iron, cobalt, nickel, copper, platinum group metals and other metals considered valuable and of commercial interest, and a method of using the aqueous means for solubilizing such components is described.