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expertise in airframe multidisciplinary design and optimization, aerospace vehicle performance, or avionics are encouraged to apply. The target start date is July 1, 2026, although this is flexible. To see
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systems, optimizing the growth and transfer processes, and ultimately demonstrating wafer‑scale deposition for industrial MEMS applications. This project offers a unique opportunity to work at the interface
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houses Canada’s only collection of high-field and ultra-high-field MR systems, including both 3T and 7T human/animal scanners, a marmoset-optimized 9.4T scanner and 15.2T scanner optimized for rodent and
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high-resolution imaging. Characterize tissue- and cell-specific RNA dynamics to inform the design of optimized RNA constructs. Contribute to the preclinical development of local gene-editing strategies
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of Earth; (ii) Dynamics of Earth System Processes in Modern and Deep Time; and (iii) Mineral and Energy Resources for a Sustainable Future. Primary Purpose: This position is an integral component of our
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applications, and presentation materials. Participate in lab meetings, interdisciplinary working groups, and institutional research initiatives. Required Qualifications Education: PhD in Immunology, Cell Biology
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departmental strengths in areas such as catalysis, thermodynamics, advanced separations, integrated chemical process design and optimization, scaling and modularizing chemical processes, and novel energy inputs
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hrs & 1 x 50 hrs Heat and Mass Transfer (CHEE315) // 5 x 100 hrs Separation Processes (CHEE351) // 3 x 100 hrs Energy Systems Engineering (CHEE401) // 2 x 100 hrs Process Modelling (CHEE440) // 3 x 100
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on Vancouver’s campus, the Gordon B Shrum building and the Biomedical Research Centre (BRC). For more information about the School of Biomedical Engineering, please visit https://www.bme.ubc.ca/ . Reporting