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Phd Library Science Jobs (NOW HIRING)

Political Science Faculty

Blountville, TN · On-site

$52K - $65K/yr

... PhD Please use the Total Compensation Calculator found on the Northeast State Careers Page for a ... Collaborate with Library personnel in the selection development, and distribution of resource ...

Protein Designer

Emeryville, CA · On-site

$130K - $180K/yr

A Bit About Us: We are Arcadia Science, an evolutionary biology company founded and led by ... PhD or equivalent experience in biochemistry, biophysics, bioengineering, or related field * At ...

Protein Designer

Emeryville, CA · On-site

$130K - $180K/yr

A Bit About Us: We are Arcadia Science, an evolutionary biology company founded and led by ... PhD or equivalent experience in biochemistry, biophysics, bioengineering, or related field * At ...

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Phd Library Science information

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How much do phd library science jobs pay per hour?

As of Jul 4, 2026, the average hourly pay for phd library science in the United States is $15.74, according to ZipRecruiter salary data. Most workers in this role earn between $11.78 and $17.55 per hour, depending on experience, location, and employer.
What cities are hiring for Phd Library Science jobs? Cities with the most Phd Library Science job openings:
What states have the most Phd Library Science jobs? States with the most job openings for Phd Library Science jobs include:
Infographic showing various Phd Library Science job openings in the United States as of June 2026, with employment types broken down into 24% Full Time, 75% Part Time, and 1% Temporary. Highlights an 93% Physical, 2% Hybrid, and 5% Remote job distribution, with an average salary of $32,732 per year, or $15.7 per hour.

Senior/Principal Scientist, Small Molecule Therapeutics

Lila Sciences

Cambridge, MA

Other

Posted 3 days ago


Job description

Your Impact at LILA

The Senior/Principal Scientist, Small Molecule Therapeutics will lead early hit identification efforts, leveraging their expertise in DNA-encoded libraries (DEL) and complementary screening technologies to discover and validate novel chemical matter.  This role will partner cross-functionally with Lila's Chemistry, Computational, and Automation teams to develop and scale a best-in-class small molecule screening platform.  The Senior/Principal Scientist will also drive the progression of hits through optimized biochemical and biophysical assay cascades, while identifying and securing fit-for-purpose protein sources to enable robust characterization and follow-up.  

What You'll Be Building

  • Build and continuously improve DNA-encoded library (DEL) screening capabilities, tightly integrated with Lila's AI-enabled chemistry design engine and automated/robotic synthesis platform.
  • Design and execute DEL screening campaigns, including selection strategy, experimental execution, data interpretation, and translation into robust hit validation and hit-to-lead workflows.
  • Develop, optimize, and run fit-for-purpose biochemical and biophysical assays to validate and characterize hits emerging from Lila's screening platform.
  • Evaluate, implement, and operationalize complementary screening modalities (e.g., fragment, affinity-based, functional, and other relevant approaches) to expand hit-finding coverage and diversify chemotypes.
  • Establish and manage collaborations (internal and external) to secure high-quality protein supply suitable for high-throughput screening and assay development.
  • Define, produce, and triage optimal protein constructs (including construct design and quality criteria) to enable reliable screening performance and confident downstream hit validation.

What You'll Need to Succeed

  • Education & experience: PhD in Biology, Chemical Biology, Biochemistry, or a related field with 6-8 years of relevant drug discovery experience; or MS/BS with 10+ years of industry experience in small molecule discovery, screening, and hit finding.
  • DEL expertise: demonstrated success designing, executing, and delivering impactful DNA-encoded library (DEL) screening campaigns, from selection strategy through validated hits that enable downstream chemistry.
  • Hit identification breadth: strong working knowledge of complementary screening approaches (e.g., fragment-based, affinity-based, functional/phenotypic, and other relevant modalities) to diversify hit sources and chemotypes.
  • Assay development & validation: experience developing and optimizing biochemical and biophysical assays to triage, validate, and characterize screening hits, including assay quality metrics and troubleshooting.
  • Biophysics proficiency: hands-on experience with affinity/biophysics methods used in hit confirmation and ranking (e.g., SPR, BLI, DSF, ITC, MST, or comparable techniques), with the ability to interpret data critically.
  • Automation-forward mindset: experience operating in automation- and robotics-enabled labs, including liquid handling integration, assay automation, and designing scalable, reproducible experimental workflows.
  • Protein partnership: proven ability to collaborate closely with protein science collaborators to enable screening, spanning construct strategy, expression system selection, purification requirements, and quality criteria for assay readiness.
  • Comprehensive hit-to-lead understanding: clear understanding of the full hit identification and validation funnel, including orthogonal confirmation, selectivity/counterscreens, artifact mitigation, and translation into hit-to-lead-enabling data packages.
  • Mechanism-driven assay design: ability to establish and optimize activity assays to prioritize binding hits, probe mechanism of action, and guide follow-up experiments and medicinal chemistry decisions.
  • Cross-functional effectiveness: strong record of operating in highly interdisciplinary environments across chemistry, biology, automation, and computational teams, with excellent scientific communication and stakeholder alignment skills.

Bonus Points For

  • Deep expertise in large-scale screening approaches, including DNA-encoded libraries (DEL), fragment-based screening, and other contemporary small molecule discovery technologies.
  • Strong command of screening data analysis, interpretation, and stewardship of large experimental datasets (including clear data QC, hit calling, and prioritization frameworks).
  • Hands-on experience across multiple biophysical modalities (e.g., SPR, BLI, DSF, MST, ITC, MS-based methods) and the ability to select fit-for-purpose methods for confirmation and ranking.
  • Extensive understanding of biochemical activity assays, including development, optimization, and interpretation across common readouts (luminescent, colorimetric, fluorometric, and label-free formats).
  • Experience designing, producing, and evaluating protein constructs that enable robust, scalable high-throughput screening and downstream validation.
  • Familiarity operating in AI-enabled drug discovery environments and/or integrating machine learning outputs into experimental design, prioritization, and iterative learning cycles.
  • Experience building screening capabilities end-to-end, including instrumentation evaluation/selection, workflow design, and lab automation implementation.
  • Ability to thrive in a fast-paced, highly innovative environment.
  • Excellent communication skills, with the ability to synthesize and explain complex datasets to diverse audiences across chemistry, biology, automation, and computational teams.