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SD-26083 – POSTDOCTORAL RESEARCHER IN THE CHEMICAL VAPOR DEPOSITION OF METAL ORGANIC FRAMEWORKS F...
: https://www.list.lu/ How will you contribute? The CLEANH3 project investigates the gas phase synthesis of metal organic frameworks for the conversion of small and low-energy molecules into advanced
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SD-26084 – POSTDOCTORAL RESEARCHER IN THE CHEMICAL VAPOR DEPOSITION OF COVALENT ORGANIC FRAMEWORK...
: https://www.list.lu/ How will you contribute? The CLEANH3 project investigates the gas phase synthesis of covalent organic frameworks for the conversion of small and low-energy molecules into advanced
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SD-26085 POSTDOCTORAL RESEARCHER IN THE OXIDATIVE CHEMICAL VAPOR DEPOSITION OF FUNCTIONAL BUILDIN...
in their decisions and businesses in their strategies. Do you want to know more about LIST? Check our website: https://www.list.lu/ How will you contribute? The CLEANH3 project investigates the gas
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month Research methods will include especially: Soil organic carbon (SOC) fractionation Soil respiration measurements Carbon isotope analyses FTIR spectroscopy Root and root exudate analyses
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Specialist A Job Profile Title Research Specialist A Job Description Summary The Research Assistant will support the PI and lab, performing skills including photolithography, LC-MS, MALDI imaging, NMR, FTIR
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reaction kinetics and reaction mechanisms. The candidate should have expertise in basic spectroscopic techniques such as FTIR, UV-VIS, fluorescence and NMR. LanguagesENGLISH Research FieldChemistry
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testing novel MOF materials for applications in carbon capture (https://doi.org/10.1016/j.xcrp.2022.101063). Successful candidates must have a background in MOF synthesis and characterization. Special
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and values. Our department is home to award-winning faculty and is one of NC State’s top producers of patent and invention disclosures. More information about the department can be found at https
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pipelines for SDC workflows. Quantify SEI/CEI formation and evolution via CV/GCD/EIS/GITT/dQdV. Assist in operando/ in situ characterisation (e.g., FTIR, XRD, Raman) to correlate structure–property
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(DLS) and laser diffraction granulometry, alongside the surface properties of the particles — notably their electrokinetic charge, hydrophobic/hydrophilic balance, and surface chemical composition (FTIR