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Media Contacts
![ORNL Image](/sites/default/files/styles/list_page_thumbnail/public/StJudeNeuronMigration.png?itok=9lRW8P4z)
![ORNL researchers used sophisticated laser scanning techniques to compare the breakdown of fermented popular (B) compared with unfermented popular (A), as they quantified, for the first time, chemical changes in the cell wall’s surface. ORNL researchers used sophisticated laser scanning techniques to compare the breakdown of fermented popular (B) compared with unfermented popular (A), as they quantified, for the first time, chemical changes in the cell wall’s surface.](/sites/default/files/styles/list_page_thumbnail/public/02%20Figure%201.%20CLSM%20micrographs%20of%20control%20and%20fermented%20poplar_0_0.jpg?itok=ma2CQ1Ag)
![Predicting how forests and grasslands might respond to environmental change could become more precise thanks to a new method co-developed by Oak Ridge National Laboratory, Florida State University and Pacific Northwest National Laboratory. Predicting how forests and grasslands might respond to environmental change could become more precise thanks to a new method co-developed by Oak Ridge National Laboratory, Florida State University and Pacific Northwest National Laboratory.](/sites/default/files/styles/list_page_thumbnail/public/news/images/03%20MODELING_Identifying_key_processes.jpg?itok=50so_2kq)
![When two objects approach each other, an interfacial interaction force becomes significant. By using this force, one may utilize quantum effects to advantageously control the motion of the probe. When two objects approach each other, an interfacial interaction force becomes significant. By using this force, one may utilize quantum effects to advantageously control the motion of the probe.](/sites/default/files/styles/list_page_thumbnail/public/04%20Sensors_QAFM.png?itok=X1fn4ofL)
![Computing_Quantum_deep Computing_Quantum_deep](/sites/default/files/styles/list_page_thumbnail/public/Computing_Quantum_deep.png?itok=uYC0WNy_)
In a first for deep learning, an Oak Ridge National Laboratory-led team is bringing together quantum, high-performance and neuromorphic computing architectures to address complex issues that, if resolved, could clear the way for more flexible, efficient technologies in intelligent computing.
![Quick coatings](/sites/default/files/styles/list_page_thumbnail/public/2022-08/Quick%20coatings.jpg?h=0b92b199&itok=Xwyhr8kY)
Scientists at Oak Ridge National Laboratory are using the precision of an electron beam to instantly adhere cathode coatings for lithium-ion batteries—a leap in efficiency that saves energy, reduces production and capital costs, and eliminates the use of toxic solvents.
![Microscopy_biomass_closeup Microscopy_biomass_closeup](/sites/default/files/styles/list_page_thumbnail/public/Microscopy_biomass_closeup.jpg?itok=jiTpgDkM)
![Using 3-D printing, ORNL researchers rapidly prototyped a complex gearbox pattern and created sand molds to make no-waste aluminum parts for industry partner, Emrgy Hydro. Using 3-D printing, ORNL researchers rapidly prototyped a complex gearbox pattern and created sand molds to make no-waste aluminum parts for industry partner, Emrgy Hydro.](/sites/default/files/styles/list_page_thumbnail/public/news/images/DSC_0224%5B7%5D.jpg?itok=NBmuwwMn)
Oak Ridge National Laboratory has successfully developed and tested a novel sand casting technique to quickly design complex patterns to fabricate components for industry partner Emrgy Hydro, makers of hydropower devices designed to generate electricity from slow or shallow water flo...
![Scientists synthesized porous hollow carbon spheres (HCS, shown in pink), incorporated them in a triblock copolymer (PS-PEB-PS, two blocks of polystyrene flanking a block of poly[ethylene-ran-butylene]) matrix and spin cast the mixture to create a robust Scientists synthesized porous hollow carbon spheres (HCS, shown in pink), incorporated them in a triblock copolymer (PS-PEB-PS, two blocks of polystyrene flanking a block of poly[ethylene-ran-butylene]) matrix and spin cast the mixture to create a robust](/sites/default/files/styles/list_page_thumbnail/public/news/images/02%20chemistry%20tip_1.jpg?itok=oxggxpT_)
![Pushing Boundaries - JOM Cover Pushing Boundaries - JOM Cover](/sites/default/files/styles/list_page_thumbnail/public/news/images/pushing%20boundaries1.jpg?itok=Krv5--X0)