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, etc.). Your PhD work will be crucial to the broader development of new design principles for heterogeneous catalysts that are pursued in our group. This broader development will be done in a
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spectroscopies, XPS, XRD, BET, etc.). Your PhD work will be crucial to the broader development of new design principles for heterogeneous catalysts that are pursued in our group. This broader development will be
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) of your self-assembled materials. Your PhD work will be crucial for the broader development of self-assembly strategies that are pursued in our group, and in WWSC. This broader development will be done in a
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microscopy or electron microscopy). Characterization of the functional properties (e.g., thermal, or electrical conductivity) of your self-assembled materials. Your PhD work will be crucial for the broader
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labeling to elucidate reaction mechanisms. Utilize relevant characterization techniques (e.g., electron microscopy, various spectroscopies, XPS, XRD, BET, etc.). Your PhD work will be crucial to the broader
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substrate scope. Decipher the mechanistical details of the transformation. Utilize relevant characterization techniques (e.g., NMR, mass, etc.). Your PhD work will be crucial towards the development of new
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characterization techniques (e.g., NMR, mass, GPC, tensile, etc.). Your PhD work will be crucial towards the development of new polymers for applications in chemically recyclable and functional materials, both
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., NMR, mass, etc.). Your PhD work will be crucial towards the development of new green molecules for applications in green material design, as well in the development of new synthetic concepts
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: Polymerization optimization (dispersity, catalysis and control) Macromolecular design (block copolymers) Utilize relevant characterization techniques (e.g., NMR, mass, GPC, tensile, etc.). Your PhD work will be