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Scientific Instrumentation Jobs (NOW HIRING)

Instrumentation Systems Engineer

Kearny, NJ · On-site

$110K - $150K/yr

The ideal candidate will bring strong experience in industrial or scientific instrumentation, I/O design, cabling, grounding, and EMI/EMC practices for high-reliability environments. You will play a ...

Instrumentation Systems Engineer

Kearny, NJ · On-site

$110K - $150K/yr

The ideal candidate will bring strong experience in industrial or scientific instrumentation, I/O design, cabling, grounding, and EMI/EMC practices for high-reliability environments. You will play a ...

$109K - $111K/yr

Established in 1975, Shimadzu Scientific Instruments is one of the largest suppliers of analytical instrumentation, physical testing, and environmental monitoring systems in the world. Ground ...

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Scientific Instrumentation information

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How much do scientific instrumentation jobs pay per hour?

As of Jul 18, 2026, the average hourly pay for scientific instrumentation in the United States is $28.79, according to ZipRecruiter salary data. Most workers in this role earn between $20.67 and $29.33 per hour, depending on experience, location, and employer.

What is an instrumentation scientist?

An instrumentation scientist designs, develops, and maintains scientific instruments used in research and industry. They often work with complex equipment, such as sensors, detectors, and measurement systems, requiring knowledge of physics, engineering, and data analysis. Their role ensures accurate data collection and instrument performance in laboratory or field environments.

What is the highest paid job in science?

In scientific instrumentation, senior roles such as Director of Scientific Instrumentation or Chief Scientific Officer tend to be among the highest paid, often earning six-figure salaries. These positions require extensive experience, advanced technical skills, and leadership responsibilities in research facilities or industry settings.

What are the key skills and qualifications needed to thrive in Scientific Instrumentation, and why are they important?

To thrive in Scientific Instrumentation, a strong background in physics, engineering, or a related scientific field, along with hands-on experience in instrument design and troubleshooting, is essential. Familiarity with CAD software, laboratory information management systems (LIMS), and certifications such as ISO 17025 are typically required. Critical thinking, attention to detail, and effective communication are standout soft skills for this role. These competencies ensure the accuracy, reliability, and innovation necessary for developing and maintaining complex scientific equipment in research and industry settings.

What is the highest paying job in a laboratory?

In a laboratory setting, senior roles such as Laboratory Directors or Principal Investigators typically have the highest salaries, often exceeding six figures. These positions require advanced degrees, extensive experience, and strong management skills, and they oversee research projects, staff, and budgets.

What are some common challenges faced by professionals working in scientific instrumentation, and how can they be addressed?

Professionals in scientific instrumentation often encounter challenges such as troubleshooting complex equipment malfunctions, staying current with rapidly evolving technologies, and ensuring precise calibration for accurate results. Addressing these challenges typically involves continuous training, collaborating closely with research scientists and engineers, and maintaining detailed documentation. Developing strong problem-solving skills and leveraging manufacturer support networks can also help professionals efficiently resolve technical issues and keep instruments running optimally.

What is the difference between Scientific Instrumentation vs Laboratory Technician?

AspectScientific InstrumentationLaboratory Technician
Required CredentialsTechnical degrees, certifications in instrumentation or engineeringAssociate's or bachelor's degree in science or related field
Work EnvironmentManufacturing, R&D labs, technical serviceResearch labs, clinical, educational institutions
Employer & Industry UsageInstrument manufacturers, research institutionsHospitals, universities, research facilities
Common Search & ComparisonTechnical roles in instrumentationLab support roles

Scientific Instrumentation involves designing, maintaining, and repairing complex scientific devices, often requiring specialized technical certifications. Laboratory Technicians perform routine testing and support research activities in lab settings. While both work in scientific environments, Scientific Instrumentation focuses on technical expertise with equipment, whereas Laboratory Technicians handle sample processing and data collection.

What jobs can you get with an instrumentation degree?

A degree in scientific instrumentation can lead to roles such as instrumentation engineer, laboratory technician, calibration specialist, or research scientist. These jobs typically involve working with measurement devices, data analysis, and maintaining complex equipment in research, manufacturing, or healthcare environments.

What is scientific instrumentation?

Scientific instrumentation refers to the design, development, and use of devices and equipment that measure, analyze, or control physical, chemical, or biological processes in scientific research and industrial applications. These instruments include spectrometers, microscopes, chromatographs, and sensors, among others. Professionals in this field work on ensuring accuracy, precision, and reliability of measurements, often collaborating with scientists and engineers. Their expertise is crucial in laboratories, manufacturing, healthcare, and environmental monitoring, enabling advances in research and technology.
More about Scientific Instrumentation jobs
What cities are hiring for Scientific Instrumentation jobs? Cities with the most Scientific Instrumentation job openings:
What states have the most Scientific Instrumentation jobs? States with the most job openings for Scientific Instrumentation jobs include:
What job categories do people searching Scientific Instrumentation jobs look for? The top searched job categories for Scientific Instrumentation jobs are:
Infographic showing various Scientific Instrumentation job openings in the United States as of July 2026, with employment types broken down into 1% As Needed, 90% Full Time, 6% Part Time, 2% Contract, and 1% Nights. Highlights an 95% Physical, 1% Hybrid, and 4% Remote job distribution, with an average salary of $59,888 per year, or $28.8 per hour.

Electrical Engineer II - Full-Lifecycle Hardware / Scientific Instrumentation

Iris Scientific Inc.

Denver, CO

$125K/yr

Full-time

Medical, Dental, Vision, Life, Retirement

Re-posted 3 days ago


Job description

Electrical Engineer II - Full-Lifecycle Hardware / Scientific Instrumentation
Iris Scientific Inc. - Greater Denver, CO, United States

Location: Greater Denver, CO (Relocation Available)
Compensation: $125K Base Salary (some flexibility for the right candidate)
Benefits: Health, Dental, Vision, Life Insurance, Long Term Disability, 401K, Tuition Reimbursement
Contact: Andrew Millar; andrew.millar@irisscientific.com; 647-205-7151

Iris Scientific is a specialist recruitment agency focused on technical and commercial roles within the North American scientific instrumentation sector.

We're partnering with a global developer of advanced photonics and precision instrumentation (confidential) to hire an Electrical Engineer II for their Colorado R&D team.

The Opportunity

This is a hands-on role for an engineer who has owned electrical design end-to-end, from concept through to production and the field, and wants to keep doing that work with the backing of a larger, well-resourced team.

You'll join a small, highly technical group developing low-noise laboratory instrumentation and precision photonics hardware. The work spans the full product lifecycle: designing circuits, laying out boards, bringing up prototypes, and seeing them through to reliable, manufacturable products.

This isn't a narrow seat. You'll design real hardware and see it through build, test, and sustaining, without throwing anything over the wall, because there's no wall here.

What You'll Be Doing

  • Design and capture schematics for analog and mixed-signal instrumentation
  • Lay out and review multi-layer PCBs
  • Bring up prototypes: build, debug, validate, and characterize new hardware
  • Develop test procedures, build documentation, and manufacturing instructions
  • Take products through NPI into low-volume, high-complexity production
  • Troubleshoot issues across bring-up, validation, and early production
  • Support existing product lines: component obsolescence, design improvements, field issues
  • Collaborate closely with mechanical, software, and photonics engineers

Why This Role Is Different

  • Genuine ownership of the full design cycle, not a fragment of it
  • A larger, experienced team behind you, with room for some role specialization
  • Both design and sustaining work, so you won't be boxed into one or the other
  • Hands-on environment: you'll build your own cables, do your own rework, and work directly with the people who build and test what you design
  • A stable, well-resourced home for engineers who've carried too much alone and want a steadier, more predictable seat without losing the interesting work

What You Bring

  • BS in Electrical or Computer Engineering (MSEE a plus)
  • 5+ years of hardware design experience with a BS, or 2+ years with an MS

Core Experience (What Really Matters)

  • A track record across the full EE product cycle: ideation, design, layout, bring-up, and sustaining
  • Signal-chain design: sensor to ADC to microcontroller/microprocessor
  • Practical analog design beyond academic exercises: transimpedance amplifiers (TIAs), filters, mixing, matched impedances
  • A real working understanding of how op-amps behave in practice: gain-bandwidth, input offset, bias currents, input-referred noise, output drive
  • Experience integrating and bringing up a microcontroller (microprocessor bring-up a strong plus)
  • Comfortable working with your hands: rework, cabling, and lab bring-up are part of the job

Technical Environment

  • Altium preferred (other EDA tools fine)
  • Lab bench: oscilloscopes, spectrum analyzers, signal generators
  • Mixed-signal systems, analog and digital
  • USB, Ethernet, I2C, SPI, UART

Nice to Have

  • FPGA toolchain exposure, bonus if you've built and run test vectors, not just written logic
  • Power design awareness (linear vs. switching, and when to use each)
  • ADC/DAC specification experience
  • Test automation (Python, LabVIEW, C/C++)
  • Prior experience in scientific instrumentation, photonics, or precision measurement

The Right Background

The strongest candidates have often been the EE, or one of a small handful, at a smaller hardware company. You've had to come up with the idea, design the circuit, lay out the board, get it built, bring it up, and deal with the failures that came back. It's demanding work, and the people who've done it well tend to be looking for a bigger team and a bit more support without giving up the parts they enjoy.

Other Requirements

  • US Citizenship or Green Card required
  • Willingness to relocate (relocation support available)

Process Note

Full company details will be shared prior to formal submission.