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DOE Funded News

Updates every hour. Last Updated: 26-Aug-2025 00:11 ET (26-Aug-2025 04:11 GMT/UTC)

A new way to wobble: Scientists uncover mechanism that causes formation of planets

Princeton University

Instead of a tempest in a teapot, imagine the cosmos in a canister. Scientists have performed experiments using nested, spinning cylinders to confirm that an uneven wobble in a ring of electrically conductive fluid like liquid metal or plasma causes particles on the inside of the ring to drift inward. Since revolving rings of plasma also occur around stars and black holes, these new findings imply that the wobbles can cause matter in those rings to fall toward the central mass and form planets.

The scientists found that the wobble could grow in a new, unexpected way. Researchers already knew that wobbles could grow from the interaction between plasma and magnetic fields in a gravitational field. But these new results show that wobbles can more easily arise in a region between two jets of fluid with different velocities, an area known as a free shear layer.

Funder: DOE/US Department of Energy, NASA Headquarters, U.S. National Science Foundation, Max-Planck-Princeton Center for Fusion and Astro Plasma Physics

Can the Large Hadron Collider snap string theory?

University of Pennsylvania
Peer-Reviewed Publication

Theoretical physicist Jonathan Heckman and Ph.D. student Rebecca Hicks at University of Pennsylvania put a spin on ideas related to testing string theory: Rather than looking to verify it, the team and their collaborators sought a novel way to falsify it with data from the Large Hadron Collider at CERN. “We're not rooting for string theory to fail,” Hicks says. “We're stress-testing it, applying more pressure to see if it holds up." “If string theory survives, fantastic," Heckman says. "If it snaps, we'll learn something profound about nature.”

Journal: Physical Review Research
Funder: DOE/US Department of Energy, DOE/US Department of Energy, United States - Israel Binational Science Foundation, U.S. National Science Foundation

Flexible, eco-friendly electronic plastic for wearable tech, sensors

Case Western Reserve University
Peer-Reviewed Publication

Researchers at Case Western Reserve University have developed an environmentally safer type of plastic that can be used for wearable electronics, sensors and other electrical applications.

Journal: Science
Funder: DOE/US Department of Energy

RT-EZ: A golden gate assembly toolkit for streamlined genetic engineering of rhodotorula toruloides

University of Illinois at Urbana-Champaign Institute for Sustainability, Energy, and Environment

A versatile new toolkit developed by researchers at the Center for Advanced Bioenergy and Bioproducts Innovation (CABBI) provides a streamlined method for addressing genetic engineering challenges in Rhodotorula toruloides, reducing the time and effort required for complex metabolic engineering projects and unlocking the full biotechnological potential of this oleaginous yeast.

Journal: ACS Synthetic Biology
Funder: DOE/US Department of Energy

Upgrading biocrude oil into sustainable aviation fuel using zeolite-supported iron-molybdenum carbide nanocatalysts

University of Illinois at Urbana-Champaign Institute for Sustainability, Energy, and Environment

Wet wastes are promising candidates for sustainable aviation fuel (SAF) production due to their triglyceride content, which can be converted into biocrude via hydrothermal liquefaction (HTL). SAF precursors must meet criteria derived from conventional fuels. Currently, no HTL-derived biocrude meets these. This study, with contributions from researchers at the Center for Advanced Bioenergy and Bioproducts Innovation (CABBI), demonstrated for the first time the feasibility of catalytically upgrading wet waste-derived biocrudes into SAF precursors using zeolite-supported Mo₂C nanocatalyst.

Journal: Science Advances
Funder: DOE/US Department of Energy

Seasonal allergies caused by fungal spores now start three weeks earlier under climate change

University of Michigan
Peer-Reviewed Publication

In the U.S., fungal spore allergy season started, on average, more than three weeks ealier in 2022 than it had been in 2003.

Journal: GeoHealth
Funder: U.S. National Science Foundation, DOE/US Department of Energy, Schmidt Sciences

Constitutive down-regulation of liguleless alleles in sorghum drives increased productivity and water use efficiency

University of Illinois at Urbana-Champaign Institute for Sustainability, Energy, and Environment

This study by researchers at the Center for Advanced Bioenergy and Bioproducts Innovation (CABBI) provided proof-of-concept of the value of bioengineering sorghum leaf angle to confer greater photosynthetic carbon gain, biomass production, and yield without greater extraction of soil water. These findings are an important step toward the creation of the ideotype sorghum "smart canopy," showing measured increase in leaf blade angle as a means to sustainably deliver boosts in both grain and biomass for the bioeconomy.

Journal: Plant Biotechnology Journal
Funder: DOE/US Department of Energy

New USC study demonstrates unconditional exponential quantum scaling advantage

University of Southern California
Peer-Reviewed Publication

Researchers have been able to demonstrate a quantum exponential scaling advantage, using two 127-qubit IBM Quantum Eagle processor-powered quantum computers, over the cloud. The paper, “Demonstration of Algorithmic Quantum Speedup for an Abelian Hidden Subgroup Problem,” was published in APS flagship journal Physical Review X.

Journal: Physical Review X
Funder: Army Research Laboratory, U.S. National Science Foundation, Intelligence Advanced Research Projects Activity, Defense Advanced Research Projects Agency, DOE/US Department of Energy, DOE/US Department of Energy, DOE/US Department of Energy

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