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Nanotechnology Engineering Jobs (NOW HIRING)

Mechanical Design Engineer I

Thornton, CO · On-site

$75K - $85K/yr

Forge Nano is seekinga MechanicalEngineer to join their Engineering Design and Manufacturing Team. The Mechanical Engineer should be preparedforDesign-for-Manufacturing (DFM) so that procurement of ...

Mechanical Design Engineer I

Thornton, CO · On-site

$75K - $85K/yr

Forge Nano is seeking a Mechanical Engineer to join their Engineering Design and Manufacturing Team. The Mechanical Engineer should be prepared for Design-for-Manufacturing (DFM) so that procurement ...

Mechanical Design Engineer I

Thornton, CO · On-site

$75K - $85K/yr

Forge Nano is seekinga MechanicalEngineer to join their Engineering Design and Manufacturing Team. The Mechanical Engineer should be preparedforDesign-for-Manufacturing (DFM) so that procurement of ...

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Nanotechnology Engineering information

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$40K

$72.8K

$103K

How much do nanotechnology engineering jobs pay per year?

As of Jul 2, 2026, the average yearly pay for nanotechnology engineering in the United States is $72,843.00, according to ZipRecruiter salary data. Most workers in this role earn between $61,000.00 and $83,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Nanotechnology Engineer, and why are they important?

To thrive as a Nanotechnology Engineer, you need a strong background in physics, chemistry, materials science, and engineering, usually supported by at least a bachelor's degree in a related field. Proficiency with tools such as electron microscopes, atomic force microscopes, and simulation software, as well as knowledge of cleanroom protocols and possibly certifications in nanofabrication, is essential. Strong analytical thinking, attention to detail, and effective teamwork and communication skills help professionals excel in research and cross-disciplinary projects. These skills and qualifications are crucial for developing innovative solutions, maintaining safety, and advancing applications in sectors like medicine, electronics, and energy.

Is nanotechnology engineering a good career?

Nanotechnology engineering is a growing field that involves designing and developing materials and devices at the nanoscale, often requiring knowledge of physics, chemistry, and engineering. It offers opportunities in research, manufacturing, and healthcare sectors, with a demand for specialized skills and advanced degrees. Career prospects are strong in industries focused on innovation and technological advancement.

What does a nanotechnology engineer do?

A nanotechnology engineer designs, develops, and tests materials and devices at the nanoscale, typically involving manipulation of structures less than 100 nanometers. They work with tools like electron microscopes and focus on applications in electronics, medicine, and materials science, often requiring knowledge of physics, chemistry, and engineering principles.

What engineers make $500,000?

Senior engineers in specialized fields such as petroleum, aerospace, or software engineering can earn $500,000 or more annually, often through a combination of base salary, bonuses, and stock options. High-level roles typically require extensive experience, advanced skills, and sometimes leadership or managerial responsibilities.

What is the difference between Nanotechnology Engineering vs Materials Science Engineering?

AspectNanotechnology EngineeringMaterials Science Engineering
Required CredentialsBachelor's or higher in Nanotechnology or related fieldsBachelor's or higher in Materials Science or Engineering
Work EnvironmentResearch labs, manufacturing, R&D departmentsManufacturing plants, research labs, product development
Industry UsageElectronics, medicine, energy, materialsAutomotive, aerospace, consumer goods, manufacturing
Common Search/ComparisonYesYes

Nanotechnology Engineering and Materials Science Engineering share overlapping skills and work environments, often collaborating in research and development. However, Nanotechnology Engineering focuses specifically on manipulating matter at the atomic and molecular levels, while Materials Science Engineering covers a broader range of materials and their properties. Both fields are vital in advancing technology and innovation, with Nanotechnology Engineering offering specialized expertise in nanoscale applications.

What is nanotechnology engineering?

Nanotechnology engineering is a field that involves the design, development, and application of materials and devices on the scale of nanometers—one billionth of a meter. It combines principles from physics, chemistry, biology, and engineering to manipulate matter at the atomic and molecular level. Nanotechnology engineers work on creating new materials, improving existing products, and developing innovative solutions in areas such as medicine, electronics, energy, and the environment. The field is highly interdisciplinary and rapidly evolving, offering diverse career opportunities.

What are some common challenges faced by nanotechnology engineers when working on interdisciplinary teams?

Nanotechnology engineers frequently collaborate with professionals in fields such as chemistry, biology, materials science, and physics. A common challenge is communicating complex technical concepts across disciplines with differing terminologies and priorities. Successfully bridging these gaps requires strong teamwork, adaptability, and an openness to learning from others. Building these skills not only enhances project outcomes but also creates more opportunities for career advancement in this rapidly evolving field.

What can you do with a nano engineering degree?

A nanotechnology engineering degree prepares individuals for roles in research, development, and manufacturing involving nanoscale materials and devices. Graduates can work in industries such as electronics, healthcare, energy, and materials science, often utilizing skills in microscopy, characterization tools, and programming. The degree enables careers in product innovation, quality control, and technical consulting within high-tech environments.
More about Nanotechnology Engineering jobs
What cities are hiring for Nanotechnology Engineering jobs? Cities with the most Nanotechnology Engineering job openings:
What states have the most Nanotechnology Engineering jobs? States with the most job openings for Nanotechnology Engineering jobs include:
Infographic showing various Nanotechnology Engineering job openings in the United States as of June 2026, with employment types broken down into 2% Internship, 1% As Needed, 53% Part Time, 4% Temporary, 34% Contract, and 6% Nights. Highlights an 47% Physical, and 53% Remote job distribution, with an average salary of $72,843 per year, or $35 per hour.
Senior Scientist / Engineer

Senior Scientist / Engineer

Arcturus Technologies inc

Los Angeles, CA • On-site

Full-time

Posted 10 days ago


Job description

About Arcturus
Arcturus is creating a new wire technology stack that uses carbon nanomaterials to overcome the materials limitations of metals where performance breaks down, at real operating temperatures. Our technology is designed to significantly improve the performance of electric motors for drones and robotics, heat sinks, and ultimately the entire energy grid. At its core, Arcturus is developing a new class of carbon nanomaterial-infused metal matrix composites for high-performance conductor applications.
Why you should join us
This is a ground-floor opportunity to help build something that has never been done before.
You would join as a founding engineer/scientist and work closely with Arcturus' technical leads across nanomaterials, additive manufacturing, and process engineering. This is a hands-on execution role for someone who wants to move quickly, learn across disciplines, and help turn first-of-its-kind materials science into real product performance.
Purpose
We are seeking Senior Scientists / Engineers who can serve as force multipliers for the technical team. This person will help execute experiments, analyze results, troubleshoot failures, document learnings, and translate technical direction into measurable progress.
The ideal candidate has strong fundamentals in one or more of the following areas: carbon nanomaterials, metal additive manufacturing, metallurgy, metal matrix composites, materials science/processing, or advanced manufacturing. You do not need to be an expert in every area, but you should be highly technical, hands-on, and excited to work at the intersection of materials science, manufacturing, and product development.
The role
This role will report directly to the Lead Engineers and the CEO.
  • Execute hands-on experiments across carbon nanomaterial integration, metal processing, additive manufacturing, and conductor development
  • Support feedstock preparation, material handling, sample fabrication, post-processing, testing, and characterization
  • Work closely with lead engineers to translate technical roadmaps into clear experimental plans and daily execution
  • Help develop and optimize process parameters for aluminum and copper systems infused with carbon nanomaterials (graphene, carbon nanotubes, etc.)
  • Characterize materials using tools such as Raman, SEM/EDS, optical microscopy, electrical testing, thermal testing, hardness testing, and other methods as needed
  • Analyze experimental results and connect process variables to electrical, thermal, mechanical, and microstructural outcomes
  • Support laser and optical setup for experiments, including basic optical alignment, focal length calculations, working distance, spot size, beam delivery, and resolution considerations for laser-based processing and characterization
  • Support CVD/LCVD-style growth experiments, including gas flow setup, laminar flow considerations, vacuum system operation, chamber setup, thermal profiles, precursor delivery, and carbon nanomaterial growth dynamics
  • Troubleshoot failed builds, inconsistent samples, poor dispersion, contamination, degradation, or missed performance targets
  • Maintain clear technical documentation, including lab notes, test plans, experimental summaries, process updates, and internal reports
  • Support DOE-style experimentation, root-cause analysis, and repeatability studies as Arcturus moves from early prototypes toward controlled process development
  • Help prepare samples and data packages for external testing, customer demos, investor diligence, and partner validation
  • Contribute to invention disclosures and internal technical documentation as new discoveries emerge

Basic qualifications
  • BS, MS, or PhD in materials science, metallurgical engineering, mechanical engineering, chemical engineering, manufacturing engineering, physics, chemistry, or a related field
  • 3+ years of hands-on experience in materials R&D, process development, additive manufacturing, metallurgy, nanomaterials, or advanced manufacturing
  • Strong technical fundamentals in at least one of the following areas: carbon nanomaterials, metal additive manufacturing, metallurgy, metal matrix composites, materials processing, or conductor materials
  • Experience designing, executing, and documenting experiments in a lab, pilot, or manufacturing environment
  • Ability to analyze data, identify trends, troubleshoot problems, and communicate technical findings clearly
  • Strong scientific and technical writing skills, including clear lab documentation, test summaries, and experimental plans
  • High ownership, strong attention to detail, and comfort working in a fast-moving startup environment

Preferred qualifications
  • Experience with graphene, carbon nanotubes, carbon nanomaterial-metal composites, covetics, or carbon-metal interface engineering
  • Experience with LPBF, DED, laser processing, welding, CVD/LCVD/LACVD, or other advanced manufacturing methods
  • Experience working with aluminum, copper, conductors, metal powders, or metal matrix composites
  • Familiarity with Raman spectroscopy, SEM/EDS, microscopy, electrical testing, thermal testing, hardness testing, or related characterization methods
  • Experience with DOE, statistical analysis, root-cause analysis, or process optimization
  • Experience working in a startup environment

What we offer
  • Competitive cash compensation and meaningful equity
  • Hands-on technical ownership with direct product impact
  • The chance to help build the playbook for nanomaterial-enhanced conductors
  • The opportunity to work closely with senior technical leaders on first-of-its-kind materials and manufacturing challenges
  • Relocation support for candidates moving from outside the Los Angeles area
  • Visa sponsorship for highly qualified candidates (H-1B transfers, F-1, or STEM OTP)

If this role excites you, even if you do not check every box, we'd love to hear from you. We'd rather work with a fast learner who cares deeply about the work than someone with years of experience but little curiosity.