Hummingbird Scientific’s dual-flow mixing tip for the liquid TEM holder allows users to combine two liquids within a single environmental cell. The design supports liquids flowing at equal or varying rates. In addition to reagent mixing, the tip can be used for research requiring a traditional single-flow tip.
The Origins of a Mineral
In a study published recently in Science, researchers at Lawrence Berkeley, Pacific Northwest National Laboratories, and the University of Washington used Hummingbird Scientific’s dual-flow liquid-TEM sample holder to directly observe calcium carbonate crystal nucleation. Their research reveals the presence of multiple simultaneously-operating nucleation pathways and calls into question traditional assumptions about the nature of the nucleation process. “For a decade, we’ve been studying the formation pathways of carbonates using high-powered microscopes,” explains Dr. Jim DeYoreo, the project lead, in a PNNL press release. “But we hadn’t had the tools to watch the crystals form in real time. Now we know the pathways are far more complicated than envisioned in the models established in the twentieth century.”
Because calcium carbonate is the largest global carbon sink, the results of this study have particular relevance to climatologists, who could use them to help explain the processes through which carbon dioxide is sequestered in rocks, minerals, shells, and reefs. In future work, Dr. DeYoreo and his fellow researchers hope to observe living organisms’ roles in calcium carbonate nucleation.
Reference: M.H. Nielsen, S. Aloni, and J.J. De Yoreo. “In-situ TEM imaging of CaCO3 nucleation reveals coexistence of direct and indirect pathways,” Science 345:6201 (2014) pp. 1158–1162
Abstract | PNNL Press Release | LBL Press Release
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