702 structural-engineering "https:" "https:" "https:" "https:" "https:" "https:" "Dip" positions at Stanford University
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procedures, including but not limited to the personnel policies and other policies found in the University's Administrative Guide, http://adminguide.stanford.edu . The expected pay range for this position is
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market pay for comparable jobs. At Stanford University, base pay represents only one aspect of the comprehensive rewards package. The Cardinal at Work website (https://cardinalatwork.stanford.edu/benefits
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determined pending application date and program needs. Group or Departmental Website: http://flentje.stanford.edu (link is external) How to Submit Application Materials: Submit your application via this link
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Term: July/August 1, 2026 to June/July, 2027 (renewable) Appointment Start Date: August 1, 2026 (flexible) Group or Departmental Website: https://pedl.sites.stanford.edu/ (link is external) How to Submit
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to the personnel policies and other policies found in the University's Administrative Guide, http://adminguide.stanford.edu . The expected pay range for this position is $86,248 to $100,158 per annum. Stanford
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Animal Models; The Neural Basis of Sensory Substitution in the Blind; Ocular Structures and Physiology; MR Engineering and Methods Development for the Visual System. MRI experiments will mainly be
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found in the University's Administrative Guide, http://adminguide.stanford.edu . The expected pay range for this position is $29.24 to $34.89 per hour. Stanford University provides pay ranges representing
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appointment is 1 year with an expected renewal for a 2nd year based on mutual agreement. Appointment Start Date: Oct 1, 2025 Group or Departmental Website: https://profiles.stanford.edu/andreas-loening (link is
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Administrative Guide, http://adminguide.stanford.edu . Hybrid: The expected pay range for this position is $140,559 to $187,016 per annum. Remote : This role is open to candidates anywhere in the United States
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. Using our recently developed chromosome engineering approach, we have created isogenic stem cell lines that allow us to precisely isolate the effects of the chromosomal abnormality from other genetic