Non-PFAS Tetramer Membranes - For hydrogen generation, fuel cells, and solar fuels
Tetramer Ionomers / PEM Membranes
Over the last 15 years, Tetramer has developed a variety of custom ionomers, proton exchange membranes (PEMs), and other specialty membranes. Applications include hydrogen fuel cells, water vapor transport, electrolyzers, and solar fuels generators.
Advantages of Tetramer ionomers include tailorable properties (backbone architecture, IEC, molecular weight, water uptake/swell, H2 and O2 permeability) as well as cost and resistance to chemical degradation. Our expertise covers custom ionomer design and synthesis, scale-up, membrane configuration design and casting, and manufacturing process cost analysis.
We collaborate with national laboratories, academic institutions, and leading commercial device manufacturers to integrate our membranes into their devices
Contact us to learn more
Tetramer is pursuing further collaborations in this area. For additional information, please provide your contact information below and one of our team members will get back to you shortly.
July 2022 Announcement: Tetramer and Caltech Continue Collaboration to Enable Green Hydrogen Production Under DOE $1.15 Million R&D Award
Working in collaboration with Xiang Research Group at Caltech (California Institute of Technology), Tetramer has received a two-year $1.15MM Department of Energy (DOE) Phase IIA award for the continued development of membranes for the production of green hydrogen using solar fuels generators.
Membranes for Hydrogen Production
Improved Membranes for Solar Fuels Generators
Like plants, solar fuels generators use the sun’s energy to produce hydrogen from water or carbon-based fuels from water and CO2. Custom-designed ion exchange membranes are a critical component in solar fuels generators.
Tetramer’s membranes are being developed to significantly improve the efficiency and commercial potential of this developing technology.
Success of this work is an important step towards realizing the goal of achieving cost effective renewable fuel production. The use of solar generated fuels for industrial gas applications/chemical feedstocks, transportation fuels, and power backup/storage would result in a reduced dependence on fossil fuels and limit the associated economic, political and environmental issues related to their extraction, refinement, supply and final use.
Membranes for Hydrogen Fuel Cells
DOE Phase II - Improved Ionomers and Membranes for Fuel Cells
Hydrogen fuel cells are one of the most promising technologies for renewable clean energy production, however current membrane components fall short of important cost and performance targets.
Tetramer is developing custom membrane materials to address current performance and cost requirements and enable broader commercialization of high performance fuel cells.
As part of this work, we are working to further develop and commercialize novel ion conductive polymers produced in our laboratories for use in proton exchange membrane (PEM) hydrogen fuel cells. Success of this work would be a significant step toward clean energy production in two of the largest energy markets, transportation (e.g. automotive and warehouse material handling equipment) and stationary power (e.g. primary and back-up power generators).
During both Phase I and Phase II, Tetramer has collaborated with the National Renewable Energy Laboratory (NREL). In addition, we are working in close partnership with a leading fuel cell device manufacturer to design and produce systems with improved performance and reduced costs compared to current technology.
For more information about R&D Materials or to learn about partnerships in ongoing programs
Products In Development
We have various programs and products in all stages of development from concept to manufacturing. Products not yet ready for full-scale production may be available in research quantities under Non Disclosure Agreements (NDA) and/or Materials Transfer Agreements (MTA).
In addition, we are always open to partnership opportunities with other groups to advance the development of our ongoing programs.