HPQ and PYR Related Headlines
Go Back- HPQ Fumed Silica Reactor Pilot Plant Design Reworked to Fast Track and De-Risk Commercial Plant Scale-Up
- All Major Equipment Received for HPQ Fumed Silica Reactor Pilot Plant
- Final Assembly of HPQ Fumed Silica Reactor Pilot Plant Started; Commissioning Scheduled for Q2 2024
- HPQ Signs NDA With Industrial Group to Explore Fumed Silica Plant Joint Venture
- Internal Technical and Economic Study Indicates HPQ Fumed Silica Reactor’s Robust Potential at Commercial Scale
- Independent Analysis Confirms HPQ Fumed Silica Reactor Material’s Commercial-Quality
- Improving the Performance of Anode Materials With Novacium's Patented Surface Treatment Processes
- HPQ Secures Third-Fumed Silica NDA, as Interest in Testing of Its Commercial-Grade Silica Material Continues to Grow
- Successful Silicon Pour and Validation of All Critical Milestones in HPQ PUREVAP™ Gen3 QRR Testing
- HPQ PUREVAP™ Gen3 QRR Project Update
- HPQ Signs Non-Disclosure Agreement with Another Leading Fumed Silica Manufacturer, Delivers More Commercial-Grade Samples for Third Party Review
- First Samples of HPQ Produced Commercial Grade Fumed Silica Delivered to Third Party
- HPQ Silicon Publishes New Corporate Video Featuring Walkthrough Footage of its GEN3 QRR PUREVAP™ Pilot Plant
- HPQ PUREVAP™ Gen3 QRR Delivers Even Higher Purity Levels in a Single Step
- HPQ Silicon Comments on the Inclusion of Silicon in U.S. Department of Energy’s 2023 Critical Materials List
- Fumed Silica Samples Ready and Available to be Sent to Third Parties
- HPQ PUREVAP™ QRR Will Usher in Zero CO2 Emission Silicon Metal Manufacturing
- HPQ Silicon GEN3 QRR Pilot Plant Produces 3N+ Silicon (99.92% Si) in a Single Step
- HPQ Silica Polvere Inc. Signs Non-Disclosure Agreement With Leading Fumed Silica Manufacturer
- HPQ Fumed Silica Reactor Slashes Co2 Emissions in Fumed Silica Production by Over 50%
- HPQ Fumed Silica Reactor Project Reaches First Key Milestone
- Gen3 PUREVAP™ QRR Pilot Plant Update Process Validation Continues Moving Forward
HPQ and PYR Related Press Releases
Go Back- HPQ Fumed Silica Reactor Pilot Plant Design Reworked to Fast Track and De-Risk Commercial Plant Scale-Up
- All Major Equipment Received for HPQ Fumed Silica Reactor Pilot Plant
- Final Assembly of HPQ Fumed Silica Reactor Pilot Plant Started; Commissioning Scheduled for Q2 2024
- HPQ Signs NDA With Industrial Group to Explore Fumed Silica Plant Joint Venture
- Internal Technical and Economic Study Indicates HPQ Fumed Silica Reactor’s Robust Potential at Commercial Scale
- Independent Analysis Confirms HPQ Fumed Silica Reactor Material’s Commercial-Quality
- Improving the Performance of Anode Materials With Novacium's Patented Surface Treatment Processes
- HPQ Secures Third-Fumed Silica NDA, as Interest in Testing of Its Commercial-Grade Silica Material Continues to Grow
- Successful Silicon Pour and Validation of All Critical Milestones in HPQ PUREVAP™ Gen3 QRR Testing
- HPQ PUREVAP™ Gen3 QRR Project Update
- HPQ Signs Non-Disclosure Agreement with Another Leading Fumed Silica Manufacturer, Delivers More Commercial-Grade Samples for Third Party Review
- First Samples of HPQ Produced Commercial Grade Fumed Silica Delivered to Third Party
- HPQ Silicon Publishes New Corporate Video Featuring Walkthrough Footage of its GEN3 QRR PUREVAP™ Pilot Plant
- HPQ PUREVAP™ Gen3 QRR Delivers Even Higher Purity Levels in a Single Step
- HPQ Silicon Comments on the Inclusion of Silicon in U.S. Department of Energy’s 2023 Critical Materials List
- Fumed Silica Samples Ready and Available to be Sent to Third Parties
- HPQ PUREVAP™ QRR Will Usher in Zero CO2 Emission Silicon Metal Manufacturing
- HPQ Silicon GEN3 QRR Pilot Plant Produces 3N+ Silicon (99.92% Si) in a Single Step
- HPQ Silica Polvere Inc. Signs Non-Disclosure Agreement With Leading Fumed Silica Manufacturer
- HPQ Fumed Silica Reactor Slashes Co2 Emissions in Fumed Silica Production by Over 50%
- HPQ Fumed Silica Reactor Project Reaches First Key Milestone
- Gen3 PUREVAP™ QRR Pilot Plant Update Process Validation Continues Moving Forward