Advancing Radioactive Material Research Method: the Development of a Novel in situ Particle-attached Microfluidic Electrochemical Cell
November 15, 2024
November 15, 2024
WASHINGTON, Nov. 15 (TNSres) -- The U.S. Department of Energy's Pacific Northwest National Laboratory issued the following abstract of a journal article:
This work describes the development of a vacuum compatible microfluidic electrochemical cell (E-cell) for investigating the redox of uranium oxide (UO2). Conducting experiments on bulk amounts of radioactive material is costly and requires shielded hot cell facilities. By using microfluidic techniques, the amount of radioactive mat . . .
This work describes the development of a vacuum compatible microfluidic electrochemical cell (E-cell) for investigating the redox of uranium oxide (UO2). Conducting experiments on bulk amounts of radioactive material is costly and requires shielded hot cell facilities. By using microfluidic techniques, the amount of radioactive mat . . .