Hydrogen Isotopic Gas Separation in Metal Organic Frameworks
Session I, Panel 3 - Physical | Science
Moderator: Jason Stalnaker, Associate Professor of Physics
Record for I. Hietanen. Additional record for K. Rigdon:
Abstract
Deuterium is a rare isotope of hydrogen that has applications in NMR, nuclear power, and as a medical tracer. Due to its value and scarcity, there is significant interest in developing new methods to more effectively and cheaply separate deuterium (D2) from common hydrogen (H2). We are investigating a separation method using a class of materials called Metal Organic Frameworks (MOFs). These MOFs act like sponges, adsorbing both isotopes into distinct sites at very low temperature. When heated, the isotopes escape from these sites at slightly different temperatures due to the difference in their quantum zero-point energy. How can we make this separation better? Is there a smarter way? What quantum shenanigans are left to exploit? Our talk will answer these questions and more.
Hydrogen Isotopic Gas Separation in Metal Organic Frameworks
Science Center, Bent Corridor
Deuterium is a rare isotope of hydrogen that has applications in NMR, nuclear power, and as a medical tracer. Due to its value and scarcity, there is significant interest in developing new methods to more effectively and cheaply separate deuterium (D2) from common hydrogen (H2). We are investigating a separation method using a class of materials called Metal Organic Frameworks (MOFs). These MOFs act like sponges, adsorbing both isotopes into distinct sites at very low temperature. When heated, the isotopes escape from these sites at slightly different temperatures due to the difference in their quantum zero-point energy. How can we make this separation better? Is there a smarter way? What quantum shenanigans are left to exploit? Our talk will answer these questions and more.