The U.S. Energy Department’s Advanced Research Projects Agency-Energy (ARPA-E) today announced $37 million in funding for 16 innovative new projects as part of a new ARPA-E program: Integration and Optimization of Novel Ion-Conducting Solids (IONICS). IONICS project teams are paving the way for technologies that overcome the limitations of current battery and fuel cell products.
“While battery technologies have improved by leaps and bounds over the past few years, there remain some imposing physical and chemical barriers that have stifled further innovation,” said ARPA-E Director Dr. Ellen D. Williams. “Solid ion conductors made of affordable, easily produced materials could replace today’s mostly liquid electrolytes and expensive fuel cell parts, helping create a next generation of batteries and fuel cells that are low-cost, durable, and more efficient.”
Batteries and fuel cells are referred to as electrochemical devices due to their method of converting chemical energy into electricity and electricity into chemical energy. These products make it possible to store electricity from intermittent, carbon-free resources like wind and solar power, as well as generate electricity from the energy stored in fuels like natural gas or hydrogen. IONICS project teams are seeking to improve these energy storage options through the use of solid ion conductors, which have shown potential as a robust and high-performance alternative to traditional liquid electrolytes or expensive materials used in current fuel cell stacks. However, until now, solid ion conductors have been limited by drawbacks such as low ionic conductivity and expensive processing.
IONICS projects will use new materials and processes to achieve advancements such as increasing battery energy capacity while preventing short circuits and battery degradation. By creating a pathway to replace expensive elements like platinum for more common metals to serve as catalysts, teams also hope to greatly reduce the cost of the fuel cell parts needed to generate electricity from chemical sources.
The IONICS program and the projects funded today will look to improve U.S. energy security by enabling the production of more domestic, renewable energy while increasing economic competitiveness and reducing the country’s carbon footprint.
Examples of selected IONICS projects:
Pennsylvania State University | University Park, PA | Cold-Sintering Composite Structures for Solid Lithium Ion Conductors
Pennsylvania State University will develop solid ceramic and composite electrolytes using its recently developed “cold sintering” process. Cold sintering enables the creation of solid ion conductors at a relatively low temperature of around 100 degrees Celsius, greatly enhancing the types of materials that can be produced by the process, including composite electrolytes and those made of a combination of ceramics and polymers. The cold sintering process also offers greater ability to lower the electrolyte resistance and prevent the growth of battery-killing dendrites, two significant obstacles to the development of solid electrolytes.
Washington University in St. Louis | St. Louis, MO | Reinforced AEM Separators Based on Triblock Copolymers for Electrode-Decoupled RFBs
The Washington University in St. Louis team will use readily available and inexpensive commercial polymers to create a membrane for use in redox flow batteries. The team will investigate possibilities with four types of membrane construction with the goal of achieving the high thermal, chemical, and mechanical stability necessary for use in applications like flow batteries that contain materials like acids. A highly charged nanopowder will be used to improve the conductivity of the membrane while simultaneously increasing its selectivity.