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Mechanisms of Network Development Postdoc

University of Minnesota
Minneapolis, Minnesota
Commensurate with experience, exceeds NIH scale.
Closing date
Dec 25, 2022

Job Details

Mechanisms Of Network Development Postdoc

Smith Lab - University of Minnesota, Minneapolis MN


The Smith Lab at the University of Minnesota is seeking a postdoctoral researcher for a fully funded multi-year position to study the formation and plasticity of large-scale neural networks in the cortex. This research will employ cutting-edge multiphoton imaging and optogenetics to measure and manipulate cortical networks in vivo during development.

Preferred candidates will have a Ph.D. or equivalent in neuroscience, biology, or related field, and experience in one or more of the following areas: multiphoton imaging, optogenetics, calcium imaging, and / or in vivo electrophysiology. Applicants without prior experience in these areas but with a strong interest in applying optical approaches to investigate circuit function are also encouraged to apply.

Please apply to Gordon Smith ( with “Network Development Postdoc” in the subject line by sending a cover letter stating your interest in the project, your CV, and a research statement as a single pdf. References will be requested after initial review. This is a fully funded multi-year position with excellent benefits. Salary will be commensurate with experience, and will exceed NIH guidance.

Review of applications will begin immediately and continue until the position is filled.

  • The Smith Lab will be present at the Society for Neuroscience Meeting in San Diego. Please stop by!
  • Our presentations include: Gordon Smith, Nanosymposium, Modular functional activity across cortical areas, 20.02, 11/12/22 1:15 PM
    • Posters:
      • Intracortical network interactions in the developing ferret visual cortex, 546.17, 11/15/22, PM
      • Universality of modular correlated networks across the developing neocortex, 546.18, 11/15/22, PM


Additional information

Smith Lab:

The Smith lab is a member of the Optical Imaging Medical Discovery Team (, a $30M initiative at UMN establishing a highly collaborative group of research labs focused on utilizing optical approaches to uncover the function and organization of neural circuits. The post-doctoral fellow will join the intellectually rich neuroscience community at UMN, which brings together behaviorists, electrophysiologists, and computational neuroscientists, and includes the world leading Center for Magnetic Resonance Research. UMN is an excellent training environment for postdocs, with extensive support for trainees and a strong postdoctoral association (

The position includes an excellent comprehensive benefits package, including low cost medical, dental, and pharmacy plans, as well as paid holidays, vacation and sick leave. For additional details, please see:

The Smith Lab and the University of Minnesota recognizes and values the importance of diversity and inclusion in enriching the employment experience of its employees and in supporting the academic mission. We are committed to attracting and retaining employees with varying identities and backgrounds. The University of Minnesota provides equal access to and opportunity in its programs, facilities, and employment without regard to race, color, creed, religion, national origin, gender, age, marital status, disability, public assistance status, veteran status, sexual orientation, gender identity, or gender expression. To learn more about diversity at UMN:


The University of Minnesota, Twin Cities (UMTC), is among the largest public research universities in the country, offering undergraduate, graduate, and professional students a multitude of opportunities for study and research. Located at the heart of one of the nation's most vibrant, diverse metropolitan communities, students on the campuses in Minneapolis and St. Paul benefit from extensive partnerships with world-renowned health centers, international corporations, government agencies, and arts, nonprofit, and public service organizations.

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