Microscopy Scientist — Tissue Processing & Expansion Microscopy Mid · Engineerin
Protocol Labs, Inc., San Francisco, CA, United States
About Eon
Eon is building large-scale connectomic data collection systems to enable safe and scalable brain emulation technology. Our mission is to help bring human intelligence into the digital age.
We are looking for a scientist to help build robust tissue processing and expansion microscopy pipelines for high-resolution volumetric imaging of mammalian brain tissue.
The Role
We are looking for a scientist to lead and improve the processing, staining, and preparation of mammalian brain tissue for high-resolution volumetric optical imaging.
This role sits at the intersection of tissue processing, expansion microscopy, fluorescence imaging, and pipeline development. You will work closely with researchers, animal teams, and engineering teams to build robust and reproducible workflows that integrate cleanly into Eon’s broader imaging pipeline.
This is a hands‑on role for someone who is excited to develop new protocols, troubleshoot messy real‑world biological systems, and push tissue preparation methods toward greater quality, consistency, and scale.
What You’ll Work On
Your work may include:
optimizing staining of large mammalian neural tissue for strong, reproducible signal quality
developing and improving expansion microscopy pipelines for large tissue samples
refining tissue processing methods to improve quality, consistency, and throughput
executing signal amplification strategies to improve signal‑to‑noise ratio
validating antibodies and other staining reagents for use in neural tissue
characterizing processed tissue using fluorescence microscopy and integrating samples into volumetric imaging workflows
collaborating across teams to improve upstream and downstream pipeline performance
developing new protocols for thick tissue staining, section handling, and whole‑brain processing
About You
We are looking for someone with strong scientific judgment, high agency, and deep comfort working in a fast‑moving experimental environment.
You should be excited by the idea of building new workflows rather than just running established ones. The right person for this role is detail‑oriented, highly hands‑on, and motivated by the challenge of making complex biological systems more reliable and scalable.
Qualifications
Bachelor’s, Master’s, or PhD in neuroscience, biology, bioengineering, biomedical engineering, molecular biology, chemistry, or a related field
strong hands‑on experience with neural tissue processing, staining, immunofluorescence, and microscopy‑based workflows
experience with tissue‑processing methods for high‑volume, high‑resolution imaging, such as expansion microscopy, CLARITY, or related approaches
familiarity with neuroanatomy and preservation of tissue architecture
understanding of fluorescence, fluorophore labeling chemistry, and signal amplification methods
ability to perform basic bioconjugation chemistry
familiarity with standard and advanced fluorescence microscopy techniques, including confocal and light‑sheet microscopy
strong experimental judgment and comfort iterating on protocols in a fast‑moving research environment
Advanced degrees are preferred for candidates who will lead protocol development, but equivalent practical experience is equally valued.
Nice to Have
experience working with neural tissue samples or large‑volume staining workflows
experience developing new tissue‑processing or sample‑preparation protocols
familiarity with whole‑brain or large‑scale imaging pipelines
experience working closely with microscopy, animal, or engineering teams in a cross‑functional setting
Example Projects
Examples of projects you may work on include:
developing protocols for staining neural tissue samples greater than 1 mm with antibodies and small‑molecule stains
improving the preparation or synthesis of staining reagents with stronger fluorescent signal
processing mammalian brain tissue at scale for microscopic analysis
regularly performing expansion microscopy on tissue samples and improving the robustness of the workflow
building a tissue‑preparation pipeline that feeds directly into large‑scale connectomic imaging
Compensation
Competitive salary. Based on experience, initiative, leadership skills, and independent work and equity.
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Eon is building large-scale connectomic data collection systems to enable safe and scalable brain emulation technology. Our mission is to help bring human intelligence into the digital age.
We are looking for a scientist to help build robust tissue processing and expansion microscopy pipelines for high-resolution volumetric imaging of mammalian brain tissue.
The Role
We are looking for a scientist to lead and improve the processing, staining, and preparation of mammalian brain tissue for high-resolution volumetric optical imaging.
This role sits at the intersection of tissue processing, expansion microscopy, fluorescence imaging, and pipeline development. You will work closely with researchers, animal teams, and engineering teams to build robust and reproducible workflows that integrate cleanly into Eon’s broader imaging pipeline.
This is a hands‑on role for someone who is excited to develop new protocols, troubleshoot messy real‑world biological systems, and push tissue preparation methods toward greater quality, consistency, and scale.
What You’ll Work On
Your work may include:
optimizing staining of large mammalian neural tissue for strong, reproducible signal quality
developing and improving expansion microscopy pipelines for large tissue samples
refining tissue processing methods to improve quality, consistency, and throughput
executing signal amplification strategies to improve signal‑to‑noise ratio
validating antibodies and other staining reagents for use in neural tissue
characterizing processed tissue using fluorescence microscopy and integrating samples into volumetric imaging workflows
collaborating across teams to improve upstream and downstream pipeline performance
developing new protocols for thick tissue staining, section handling, and whole‑brain processing
About You
We are looking for someone with strong scientific judgment, high agency, and deep comfort working in a fast‑moving experimental environment.
You should be excited by the idea of building new workflows rather than just running established ones. The right person for this role is detail‑oriented, highly hands‑on, and motivated by the challenge of making complex biological systems more reliable and scalable.
Qualifications
Bachelor’s, Master’s, or PhD in neuroscience, biology, bioengineering, biomedical engineering, molecular biology, chemistry, or a related field
strong hands‑on experience with neural tissue processing, staining, immunofluorescence, and microscopy‑based workflows
experience with tissue‑processing methods for high‑volume, high‑resolution imaging, such as expansion microscopy, CLARITY, or related approaches
familiarity with neuroanatomy and preservation of tissue architecture
understanding of fluorescence, fluorophore labeling chemistry, and signal amplification methods
ability to perform basic bioconjugation chemistry
familiarity with standard and advanced fluorescence microscopy techniques, including confocal and light‑sheet microscopy
strong experimental judgment and comfort iterating on protocols in a fast‑moving research environment
Advanced degrees are preferred for candidates who will lead protocol development, but equivalent practical experience is equally valued.
Nice to Have
experience working with neural tissue samples or large‑volume staining workflows
experience developing new tissue‑processing or sample‑preparation protocols
familiarity with whole‑brain or large‑scale imaging pipelines
experience working closely with microscopy, animal, or engineering teams in a cross‑functional setting
Example Projects
Examples of projects you may work on include:
developing protocols for staining neural tissue samples greater than 1 mm with antibodies and small‑molecule stains
improving the preparation or synthesis of staining reagents with stronger fluorescent signal
processing mammalian brain tissue at scale for microscopic analysis
regularly performing expansion microscopy on tissue samples and improving the robustness of the workflow
building a tissue‑preparation pipeline that feeds directly into large‑scale connectomic imaging
Compensation
Competitive salary. Based on experience, initiative, leadership skills, and independent work and equity.
#J-18808-Ljbffr