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eligibility, please visit: http://uhr.rutgers.edu/benefits/benefits-overview . Posting Summary We have immediate availability for a non tenure track Research Associate position in experimental condensed matter
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multifunctional characterization. The candidate should correlate high-resolution morphological and electrostatic data (obtained by AFM, KPFM, and SKPM) with electrical and optical measurements in complete devices
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the feasibility and scalability of the developed processes for potential industrial applications. Analysis and Characterization: Employing a wide range of analytical techniques, including EM, SEM, AFM, XPS, UV-Vis
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, neuroscience, and/or mechanobiology are preferred. Preferred Qualifications Equipment Utilized Micropipette manipulation and patch-clamp, optical tweezers, fluorescence microscopy, cell culture, AFM, EM
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using several advanced characterization techniques such as SEM, AFM, or contact angle. To validate the obtained membranes for treating synthetic and real wastewater. To study the possible leaching
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using SEM, AFM, SNOM (Scanning Near-field Optical Microscopy) and FTIR (Fourier-Transform InfraRed spectroscopy). Internship objectives: The internship includes ZnO nanomaterial synthesis and its advanced
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sustainable replacements can be developed. Our aim is to solve this challenge. Using the atomic force microscope (AFM), you will investigate the organisation of surface-active agents at the molecular scale, and
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chemistry and biochemistry applied to sensors. • Knowledge of micro/nanofabrication and surface functionalization. • Ability to work with characterization techniques (SEM, AFM) Specific Requirements -Ability
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to understanding and characterizing interface healing through AFM measurements. These observations will be compared with the mechanical data and with diffusion models coupled to the dynamics of chemical bond
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spectroscopy and AFM microscopy. · Macroscopic or local measurements of surface potentials using electrochemical techniques or Kelvin probe microscopy (KPFM) · Project carried out as part of an ANR project in