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testing to generate biological results. This will involve the development of solution-phase chemistry coupled with solid-phase reaction clean up using tethered reagents that enable pure compounds to be
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challenge: efficiently producing bio-methanol from abundant, high-moisture waste feedstocks that do not compete with land impacts for food production or alternative fuels. The research will focus
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-phase chemistry coupled with solid-phase reaction clean up using tethered reagents that enable pure compounds to be screened without further purification. These methods will allow the parallel synthesis
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structure itself. We will quantify these features and engineer biochar with enhanced long-term carbon stability using techniques including Raman spectroscopy, X-ray diffraction (XRD), solid-state ¹³C NMR
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chlorination to convert metallic impurities into volatile chlorides. The process efficiency, however, depends on a complex interplay of particle-scale interactions and particle/solid body interactions. Current
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, high-moisture waste feedstocks that do not compete with land impacts for food production or alternative fuels. The research will focus on hydrothermal processing, an underdog compared
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into volatile chlorides. The process efficiency, however, depends on a complex interplay of particle-scale interactions and particle/solid body interactions. Current industrial practice relies heavily