Science Daily: Metal oxide-infused membranes could offer low-energy alternative for chemical separations
NextBigFuture: New Zeolite Membranes Increase Energy Efficiency of Chemical Separations up to 50 times
New Zeolite Membranes Increase Energy Efficiency of Chemical Separations up to 50 times
Engineers have developed a new method for creating high-performance membranes from crystal sieves called zeolites; the method could increase the energy efficiency of chemical separations up to 50 ...
Super-thin carbon molecular sieve (CMS) membranes may not be best for separating industrially important chemical mixtures. However, ensuring the CMS film thickness is just right could enable more ...
Researchers are working on membranes that could separate chemicals without using energy-intensive distillation processes. Chemical manufacturers consume a massive amount of energy each year separating ...
Phys.org: Energy Efficient Separations: Researchers Use Computational Modeling to Design Improved Membrane Technology
Energy Efficient Separations: Researchers Use Computational Modeling to Design Improved Membrane Technology
C&EN: Via Separations CEO Shreya Dave is trying to find a niche for graphene oxide membranes outside the lab
Via Separations CEO Shreya Dave is trying to find a niche for graphene oxide membranes outside the lab
CU Boulder News & Events: Nanoporous Polymer Membranes for Molecular-size based Separations (collaborative work with Prof. Rich Noble, CU Boulder, and with Dr. Biran Elliot, TDA Research, Inc.)
Nanoporous Polymer Membranes for Molecular-size based Separations (collaborative work with Prof. Rich Noble, CU Boulder, and with Dr. Biran Elliot, TDA Research, Inc.) In addition to nanocomposite ...
Nanoporous Polymer Membranes for Molecular-size based Separations (collaborative work with Prof. Rich Noble, CU Boulder, and with Dr. Biran Elliot, TDA Research, Inc.)