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An illustration showing how X-ray tomography can reveal details about the inner workings of intact cells photo of FLEXLAB interior An illustration of the 2D boron nitride substrate with imperfections that host tiny nickel clusters. The catalyst aids the chemical reaction that removes hydrogen from liquid chemical carriers, making it available for use as a fuel. (Credit: Jeff Urban/Berkeley Lab) Three researchers wearing white lab coat, blue latex gloves, and shower caps working in a laboatory. Photo - Photomultiplier tubes, designed to pick up faint light signals from particle interactions, line the inside of a detector for the Daya Bay Reactor Neutrino experiment. (Credit: Roy Kaltschidt/Berkeley Lab) A false-color transmission electron micrograph of multiple bacteriophages attached to a bacterial cell wall anti-COVID mask Collage - A collection of images from past, present, and pending neutrino science experiments, including: Daya Bay, DUNE at LBNF, the Homestake experiment, IceCube, KamLAND, ProtoDUNE and SNO. Displayed in the background is the text of a letter that physicist Wolfgang Pauli had written on Dec. 4, 1930, postulating the existence of the neutrino. Photo - Researchers work on the assembly of the CUORE experiment prior to its placement in a deep-chilling cryostat. (Credit: CUORE Collaboration) Photos - Berkeley Lab’s nine 2020 AAAS Fellows: (top row, from left to right) Wibe A. “Bert” de Jong, Spencer R. Klein, Sanjay Kumar, Mary E. Maxon, (bottom row, left to right) Esmond G. Ng, John Douglas Owens, Len Pennacchio, Robert Oliver Ritchie, and Peidong Yang. Water molecules