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Substrate Engineer Jobs in Ohio (NOW HIRING)

Whether you're engineering advanced materials, transforming manufacturing technologies, or leading ... Design and execute experiments that link formulation, processing, and substrate variables to ...

Whether you're engineering advanced materials, transforming manufacturing technologies, or leading ... Design and execute experiments that link formulation, processing, and substrate variables to ...

Whether you're engineering advanced materials, transforming manufacturing technologies, or leading ... Design and execute experiments that link formulation, processing, and substrate variables to ...

Substrate Engineer information

What are some common challenges Substrate Engineers face when working on high-density interconnect (HDI) designs?

Substrate Engineers often encounter challenges related to managing signal integrity, thermal performance, and miniaturization when working with HDI designs. Balancing the need for dense routing with electrical performance can be complex, especially as device sizes shrink and layer counts increase. Collaboration with PCB designers, materials scientists, and manufacturing teams is crucial to address these issues and ensure the substrate meets both design and production requirements. Keeping up with evolving technologies and industry standards is also essential for success in this role.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and aerospace engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and in high-demand industries. Roles involving leadership, complex technical expertise, or working in lucrative markets tend to have higher compensation levels.

What are the 7 types of engineers?

Engineers are typically categorized into various disciplines based on their specialization, including civil, mechanical, electrical, chemical, software, aerospace, and industrial engineering. Substrate engineers, a specialized role in semiconductor manufacturing, focus on designing and developing substrate materials used in electronic devices. Understanding different engineering types helps in identifying the skills and tools relevant to each field, which can be important for career development and job opportunities.

Are materials engineers in high demand?

Materials engineers, including those working as substrate engineers, are in high demand due to the growth of electronics, semiconductor, and advanced manufacturing industries. They often require knowledge of materials properties, testing, and industry standards, with employment prospects driven by technological innovation and manufacturing needs.

What is a Substrate Engineer?

A Substrate Engineer is a professional who specializes in designing, developing, and optimizing the underlying frameworks, often referred to as substrates, for electronic devices or software platforms. In the context of electronics, they work with materials and technologies that form the physical base for circuits and chips, ensuring performance, reliability, and manufacturability. In software, especially blockchain, a Substrate Engineer focuses on building and customizing blockchains using the Substrate framework, handling core logic, consensus, and runtime modules. Their role is crucial for creating robust and scalable systems tailored to specific application requirements.

What engineers make $500,000 a year?

Highly experienced engineers in specialized fields such as software engineering, data engineering, or systems architecture can earn $500,000 or more annually, especially in senior or executive roles at large technology companies. These positions often require advanced skills, certifications, and extensive industry experience, and may include bonuses, stock options, or profit sharing as part of compensation packages.

What is the difference between Substrate Engineer vs Semiconductor Process Engineer?

AspectSubstrate EngineerSemiconductor Process Engineer
CredentialsBachelor's or Master's in Materials Science, Electrical Engineering, or related fieldsBachelor's or Master's in Electrical Engineering, Chemical Engineering, or related fields
Work EnvironmentResearch labs, fabrication facilities, semiconductor manufacturing plantsCleanrooms, fabrication facilities, process development labs
Industry UsageSemiconductor manufacturing, electronics, integrated circuitsSemiconductor fabrication, chip production, process optimization
Common Search/ComparisonYesYes

Substrate Engineers focus on developing and optimizing the materials and layers used in semiconductor devices, while Semiconductor Process Engineers work on the overall manufacturing processes to produce chips efficiently. Both roles require similar educational backgrounds and often collaborate within the semiconductor industry, but their specific responsibilities differ in scope and focus.

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

To thrive as a Substrate Engineer, you need a strong background in materials science, semiconductor fabrication, and electrical engineering, often supported by a relevant engineering degree. Familiarity with industry-standard design tools like Cadence or Mentor Graphics, as well as experience with substrate modeling, PCB design, and analysis software, is typically required. Excellent problem-solving skills, attention to detail, and effective communication are crucial soft skills for collaborating across multidisciplinary teams. These qualifications are essential for ensuring high-quality, reliable substrate designs that meet performance, manufacturability, and cost requirements in advanced electronics manufacturing.
What cities in Ohio are hiring for Substrate Engineer jobs? Cities in Ohio with the most Substrate Engineer job openings:

Full-time

Posted 21 days ago


Job description

Company Overview

Imagine Everything. Build the Future with Hexion.

At Hexion, we push boundaries, rethink possibilities, and create real impact. We activate science to deliver progress—developing breakthrough solutions that strengthen industries, protect communities, and drive a more sustainable future.

This is where bold thinkers, problem-solvers, and innovators come together to shape what’s next. Whether you're engineering advanced materials, transforming manufacturing technologies, or leading strategic innovation, your ideas and actions leave a lasting mark. We cultivate an inclusive culture of growth, collaboration, and accountability, ensuring every contribution propels us forward.

We don’t follow the status quo—we challenge it, disrupt it, and improve it. Every role at Hexion is part of something bigger.

We invest in innovation, sustainability, and continuous development—equipping you with the tools, training, and opportunities to excel. With an unwavering commitment to safety, partnership, belonging, and impact, we empower you to lead change and strengthen industries worldwide.

Your Future Starts Here.  

If you’re ready to push limits, reimagine what’s possible, and create the extraordinary, Hexion is where you belong. 

Anything is possible when you imagine everything. 

Position Overview

The pMDI Research Scientist leads high-impact laboratory research that advances polymeric methylene diphenyl diisocyanate (pMDI) technologies for engineered wood and related adhesive applications. This role combines deep materials and adhesive science with artificial intelligence, data science, and experimental modeling to generate new predictive models that accelerate discovery and optimize resin performance, manufacturing cost, and mill productivity. The position drives formulation and application-development work across resin chemistry, aqueous suspension and emulsion behavior, curing kinetics, wood-substrate interaction, and process-performance relationships, translating scientific insight into scalable product and process solutions that improve performance, safety, sustainability, and commercial value.

Job Responsibilities
  • Lead laboratory research on pMDI resin systems, including neat resin, aqueous suspensions, emulsions, and related binder technologies for wood composite applications such as OSB, MDF, particleboard, and adjacent materials. 
  • Design and execute experiments that link formulation, processing, and substrate variables to adhesive performance, including moisture, press time, resin loading, viscosity, emulsion stability, penetration behavior, and wood-furnish characteristics. 
  • Integrate artificial intelligence, machine learning, and advanced analytics with laboratory research to generate predictive models that optimize bond performance, process efficiency, raw-material usage, and total cost in wood-mill operations. 
  • Develop structure-property-process understanding for pMDI systems using analytical, thermal, rheological, microscopy, and mechanical testing methods. 
  • Interpret laboratory and pilot data to define performance windows, identify root causes, and uncover opportunities for product and process optimization. 
  • Translate research findings into practical recommendations for scale-up, plant trials, manufacturing implementation, and customer-facing technical support. 
  • Partner cross-functionally with R&D, process engineering, manufacturing, commercial teams, and external stakeholders to align innovation priorities with business strategy and mill-performance goals. 
  • Document experimental methods, model outputs, conclusions, and next steps in technical reports, presentations, and project updates while maintaining high standards for laboratory safety, environmental stewardship, and compliance. 
Key Responsibilites
  • Plan, prioritize, and execute hands-on laboratory programs focused on pMDI formulation, application, and performance improvement. 
  • Investigate curing mechanisms and reaction pathways involving isocyanate chemistry, water interactions, and wood-surface functionality. 
  • Develop and optimize aqueous pMDI suspension or emulsion systems with attention to stability, viscosity growth, processing windows, and final bond performance. 
  • Build and refine AI- and data-driven models using laboratory, pilot, and manufacturing data to predict adhesive behavior, optimize formulations, and improve mill throughput, quality, and cost performance. 
  • Evaluate bonding performance using relevant test methods such as internal bond, dimensional stability, pull-off, lap-shear, and other application-specific metrics. 
  • Characterize material behavior using techniques such as viscosity measurement, thermal analysis, microscopy, spectroscopy, surface analysis, and imaging methods to understand penetration, wetting, and interfacial interactions. 
  • Apply rigorous data analysis, statistical methods, and design of experiments to convert complex findings into clear technical conclusions and actionable recommendations. 
  • Partner with manufacturing and process teams to define trial plans, critical variables, risk-mitigation actions, and scale-up pathways for implementation in wood-mill environments. 
  • Prepare technical summaries and present results to leadership, project teams, and commercial partners with decision-support insights grounded in both scientific and model-based evidence. 
  • Monitor scientific, patent, regulatory, and competitive developments in pMDI, wood adhesives, AI-enabled materials research, and formaldehyde-free binder technologies to inform innovation strategy. 
  • Contribute to intellectual property generation, technical publications, and knowledge capture as appropriate. 
  • Support troubleshooting of product or process issues by identifying root causes and proposing corrective actions in collaboration with internal and external partners. 
Qualifications and Experience

Required

  • Ph.D. in Polymer Science, Polymer Chemistry, Materials Science, Chemical Engineering, Wood Science, Data-Enabled Materials Research, or a closely related technical discipline; or M.S. with significant directly relevant industrial research experience. 
  • 10+ years of experience in polymer, adhesive, isocyanate, polyurethane, or related reactive resin research and development. 
  • Demonstrated expertise in structure-property relationships, formulation science, laboratory experimentation, and translating data into practical product and process insight. 
  • Experience applying statistical analysis, design of experiments, modeling, and/or artificial intelligence tools to research, development, or manufacturing optimization problems. 
  • Hands-on experience with material characterization and performance testing relevant to reactive resin systems. 
  • Strong technical writing, problem-solving, and communication skills with the ability to influence technical and non-technical stakeholders. 
  • Working knowledge of laboratory safety practices and chemical handling requirements for reactive materials. 

Preferred

  • Industrial experience with pMDI or related isocyanate technologies in wood composites, coatings, adhesives, binders, or composite materials. 
  • Knowledge of wood composite manufacturing processes, including OSB, MDF, plywood, or particleboard production. 
  • Experience with aqueous suspension or emulsion systems, rheology, wetting and penetration studies, and curing kinetics. 
  • Experience developing predictive models or applying machine learning, multivariate analysis, or digital experimentation tools in laboratory or manufacturing environments. 
  • Familiarity with scale-up from lab to pilot or plant environments and supporting customer or mill trials. 
  • Track record of invention disclosure, patent support, technical publication, or proprietary know-how generation. 
  • Understanding of sustainability drivers, formaldehyde-free technologies, and evolving market and regulatory requirements in engineered wood applications.
Key Competencies
  • Deep technical expertise in polymer and reactive resin chemistry 
  • Scientific curiosity and innovation mindset 
  • Strong experimental design and analytical rigor 
  • Problem solving and root-cause analysis 
  • Ability to translate technical complexity into actionable recommendations 
  • Project management and prioritization 
  • Cross-functional collaboration and influence 
  • Clear written and verbal communication 
  • Attention to detail and disciplined documentation 
  • Commitment to safety, compliance, and continuous improvement 
Key Performance Indicators
  • Achievement of project milestones, technical deliverables, and development timelines 
  • Quality, reproducibility, and statistical rigor of experimental work 
  • Number and impact of formulation, process, or performance improvements advanced to pilot or commercial evaluation 
  • Success rate of scale-up recommendations and plant or customer trial outcomes 
  • Strength of technical documentation, presentations, and knowledge transfer 
  • Contribution to intellectual property, invention disclosures, publications, or proprietary know-how 
  • Effectiveness in solving technical issues and reducing development risk 
  • Collaboration effectiveness with R&D, operations, commercial teams, and external partners 
  • Adherence to safety, environmental, and compliance expectations 
  • Contribution to strategic innovation goals in pMDI and formaldehyde-free adhesive technologies 
Other
 

We are an Equal Opportunity, Affirmative Action employer. All qualified applicants will receive consideration for employment without regard to gender, minority status, sexual orientation, gender identity, protected veteran status, status as a qualified individual with a disability or any characteristic protected by law.


In order to be considered for this position candidates are required to submit an application for employment through our career site, be at least 18 years of age, willing to take a drug test, submit to a background investigation as part of the selection process, as well as additional periodic background checks as required by the Chemical Facility Anti-Terrorism Standards (CFATS) or regulations adopted by the department of Homeland Security or other regulatory agencies.


Candidates are required to have unrestricted authorization to work in the United States.


If currently an employee of the Company, you must have current satisfactory work performance and in most cases, have been in your current role for 18 months.


Disclaimer: We are not accepting unsolicited assistance from search firms/employment agencies for this employment opportunity. Please, no phone calls or emails to any employee about this position. All resumes submitted by search firms/employment agencies to any employee of the Company via email, the Internet, or in any other form and/or method without a valid written search firm agreement in place for this position will be deemed the sole property of the Company; no fee will be paid in the event a candidate is hired by the Company as a result of the unsolicited referral or through other means.