top of page
November 5, 2024
We are delighted to share that we have been selected for the prestigious ENERGYWERX Voucher Program, marking a significant milestone in our journey to advance clean energy technology adoption. This opportunity will enable us to further expand our innovative solutions to the geothermal energy sector, enhancing the reach and impact of our sustainable technologies.
July 25, 2024
We are excited to announce that our proposal for the Syngas Production has been awarded a grant by the Department of Energy (DOE). This project, led by our Principal Investigator team at the National Renewable Energy Laboratory (NREL), aims to enhance the efficiency and scalability of Concentrating Solar Power (CSP) technologies by developing innovative energy production with decarbonization. Our collaboration with NREL will leverage their extensive expertise in renewable energy research to push the boundaries of material science and energy storage. The project's outcomes are expected to significantly improve CST system performance, facilitate wider adoption of solar power, and contribute to reducing greenhouse gas emissions. This grant represents a pivotal step in our commitment to driving sustainable energy solutions and underscores our position as a leader in the renewable energy sector. For more details about the DOE's program, visit their official website.
June 4, 2024
We are excited to announce a significant breakthrough at AMS in enhancing the optical properties of thermal energy storage media. The international conference, SolarPACES, featured our technology in LinkedIn. Our latest research on advanced black particles for Gen3 CSP systems demonstrates exceptional efficiency, lower costs, and strong environmental benefits. These particles promise to achieve the low Levelized Cost of Energy (LCOE) targeted for advanced CSP systems, marking a major step forward in renewable energy technology. Read more about our study here: Link
May 15, 2024
🚀 Excited to share my latest research article on advancing Gen3 Concentrating Solar Power (CSP) technology! 🌞
Our study introduces a novel approach to enhancing thermal energy storage particles, bringing us one step closer to the commercialization of Gen3 CSP systems. By improving the efficiency and stability of these particles, we aim to significantly boost the performance and cost-effectiveness of solar power generation.
I am incredibly proud of the team's hard work and dedication in achieving these results. This breakthrough not only contributes to the scientific community but also aligns with our mission to develop sustainable energy solutions for a cleaner future. 🌱🔬 Link
March 19, 2024
Thrilled to share that our team will be showcasing poster presentations at the SETO Peer Review Meeting in Washington D.C.! (03/26/24 - 03/28/24) Link
January 22, 2024
We are thrilled to announce our selection for the ENERGYWERX Voucher Program, a significant step in accelerating the adoption of clean energy technologies. For more information, please feel free to visit the website.
November 11, 2023
We are privileged to have the opportunity to participate in the VELOCITI voucher program regarding solar energy offered by the Department of Energy.
June 1, 2023
I am delighted to inform you that our collaborative manuscript, produced in association with the University of Michigan, has been officially accepted by SolarPACES.
September 30, 2022
See you at the SolarPACES 2022 conference in Albuquerque, NM! We will present our progress.
August 17, 2022
We are excited to share that Advanced Materials Scientia (AMS) has been invited to the Solar Energy journal in special issues. AMS will share scientific/engineering studies related to thermal energy media with Solar Energy. We wish our technology contributes to environmentally friendly energy production and climate change solution.
July 11, 2022
We are excited to share that Advanced Materials Scientia (AMS) has been selected by the U.S. Department of Energy Solar Energy Technologies Office to receive a $1.1M Small Business Innovation Research award for our work in low-cost thermal energy media in concentrating solar power! This project will help advance the affordability, reliability, and domestic benefit of solar technologies on the grid. Read more about our award here: Link
June 10, 2022
We are excited to share that Advanced Materials Scientia (AMS) has been selected by Small Innovative Projects in Solar (SIPS) at the U.S. Department of Energy Solar Energy Technologies Office to receive an award $250K for our work in retrievable thermal energy media for cost reduction in concentrating solar power! This project will drive innovation in concentrating solar-thermal power research and speed clean energy deployment to support an equitable transition to a decarbonized electricity system. Read more about our award here: Link
December 9, 2021
We are very excited to announce that we are invited to present our Concentrating Solar Power technology at Georgia Institute of Technology
June 14, 2021
We are excited to share that Advanced Materials Scientia has been selected by the U.S. Department of Energy Solar Energy Technologies Office to receive a Phase I Small Business Innovation Research $200K award for our work in Economical Thermal Transfer Media for Generation 3 Concentrating Solar Power System with High Durability! This project will help advance the affordability, reliability, and domestic benefit of solar technologies on the gridRead more about our award here: Link
November 19, 2020
We are selected as a semifinalist at Chain Reaction Innovation Cohort 5 sponsored by Argonne National Laboratory and the Department of Energy
bottom of page