John bailey protein scaffold5/4/2023 ![]() While there he performed structural studies, primarily by X-ray crystallography, determining the structures of proteins involved in phage DNA replication and nucleotide signaling. He also did graduate work at the University of Sheffield in John Rafferty’s lab. New material, mechanism, behaviors, surfaces and interfaces, complex forms of matter, materials dynamics, catalytic transformations, mechanics and transport, adhesion as specific examples.Scott was born in Sheffield, England and carried out his undergraduate studies at the University of Sheffield. Material, nano and micro-scale fabrication, integrated devices, self-organizing structures Nanoscale metal particles, nanorod, plasmon bands, nanorod surface, cellular imaging, chemical sensing, photothermal therapy, elastic light scattering, biological systems Inorganic nanomaterials, DNA and protein conformation and dynamics Self-healing polymers, macromolecular architectures, mechanochemistry, energy storage materialsĬarbon-rich materials, cyclooligomerization, alkyne metathesis, self-healing, microvascular, mechanophore, polymeric material Polymer coatings, smart materials, protein structure, binding affinities, adhesion strength, mechanosensing, cell adhesionĬhemical Biology, Chemical Physics, Inorganic, CLSLĭNA, DNAzyme, in vitro selection, SELEX, protein, protein engineering, protein scaffold, materials, DNA origami, DNA sensors, sensor ![]() ![]() Optical, magnetic, semiconductor, and oxide nanostructures, plasmonics, energy storage, and artifial photosynthesis, active sites and defects, atomic resolutionīiosurfaces, biological interfaces, cell adhesion biophysics Super-resolution imaging of heterogeneous catalysts, light-matter interactions in the Near Field, imaging phase transitions in single nanocrystals Single-molecule behavior, fluid molecules, equilibrium surface forces, dynamical responses, fundamentals of surface-surface interactions, adhesion, friction, and surface recognition, femtosecond laser fluorescence spectroscopy, fluorescence imaging methods, surface diffusion rates, rotational relaxation times, surface conformations, binding-unbinding rates of polymers, DNA, and proteinsĪnalytical, Chemical Physics, Materials, CLSL Synthesis, properties, and reactivity of new inorganic, organometallic, and solid state speciesĪctivation of alkanes, thin films, artificial photosynthetic center, magnetic solids, Chemical vapor deposition, metal organic chemical vapor depositionĪnalytical, Materials, Frederick Seitz Materials Research Laboratoryįundamental materials processes, soft materials, molecules at surfaces Metal surfaces in electrochemical environments, examine electrode surfaces, electrodeposition of Cu, behavior of supported phospholipid bilayersĮlectrocatalysis, electrified interfaces, lipid bilayers, photocatalysis Infrared and Raman interactions, molecular energy transfer, ultrafast spectroscopy, propellants, shock compression, intense laser pulses, lubricant moleculesĪnalytical, Chemical Physics, Inorganic, CLSL Highly-multiplexed, label-free biosensors, multicomponent strategies for assessing tissue heterogeneityįast processes in molecules, materials, surfaces and interfaces, vibrational energy in molecular nanostructures Bioanalytical tools, multi-dimensional surface receptor gradients, comparative analysis of protein
0 Comments
Leave a Reply. |