Researchers in the IDREAM Energy Frontier Research Center unearth new defects during gibbsite crystallization using a multi-instrument approach.

Surface characterization allows researchers to explore the compatibility between different solvent-membrane combinations.

Ocean engineer Emma Cotter supports the Triton Initiative's environmental monitoring projects.

PNNL researchers utilized the Peeters-Devreese-Soldatov formulation to improve the accuracy of calculations for quantum chemistry.

Using size-tunable ionic liquid clusters make electrochemical separations more efficient.

Newly determined energy transfer mechanisms help identify how water releases from and damages irradiated interfaces.

Developing an understanding of how water breaks apart after radiation exposure.

IDREAM researchers use fast force mapping to provide insights into the boehmite interfacial solution structure.

A comprehensive understanding of the electronic structure of uranyl ions provides insight into the chemistry of nuclear waste and uranium separation technologies.

The Triton Initiative highlights different creative science communications, including photography, writing, and science art, and the impact they have on the project's marine energy research.

Triton highlights research partners in environmental monitoring for marine energy.

Researchers achieved the complete assignment of the infrared spectrum of a hydronium-water “magic number” cluster reported in Science in 2004.

PNNL researchers worked to decouple the effects that solvents impose on reactions catalyzed in the liquid phase.

A team of researchers developed a simulation approach to identify how atomic structures can affect the phonon transport of energy and information in quantum systems near absolute zero temperatures.

Triton is piloting research on the interactions of receptors and anthropogenic light associated with marine energy devices.

New research finds that reaction rates for cyclic alcohol dehydration increase as ionic strength increases, independent of reaction mechanism.

Theoretical work shows that an important natural iron source can be described as a nanoscale composite of different, but experimentally indistinguishable, structures.

The Triton Initiative introduces its next generation of projects focused on researching stressor/receptor interactions for marine energy applications.

Internship focused on detecting and characterized baleen whale vocalization activity near the future PacWave test site in Newport, Oregon.

The Triton Initiative supports projects funded through U.S. Department of Energy funding opportunity announcements developing environmental monitoring technologies for marine energy.