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Advanced Battery Concepts Jobs (NOW HIRING)

Product Engineer

Franklin Township, NJ ยท On-site

$28 - $36/hr

A specialty materials company focused on advanced battery materials and nanotechnology - they ... Coating (tape casting / doctor blade / roll-to-roll concepts), drying, film uniformity * Electrode ...

... development of advanced battery products for next-generation energy storage system (ESS) and ... Solid understanding of learning theory concepts such as regularization, generalization, loss ...

... development of advanced battery products for next-generation energy storage system (ESS) and ... Solid understanding of learning theory concepts such as regularization, generalization, loss ...

... development of advanced battery products for next-generation energy storage system (ESS) and ... Basic understanding of machine learning concepts and feature engineering. * Strong analytical and ...

Senior Scientist, Electrolyte

Woburn, MA ยท On-site +1

$100K - $136K/yr

... advanced battery management. We are at the forefront of revolutionizing battery creation ... Demonstrate the ability to use fundamental physical chemistry concepts and experimental techniques ...

Mechanical Engineer II

Tualatin, OR ยท On-site

$98K - $110K/yr

... of advanced battery system solutions for targeted applications. This role will work onsite at ... Develop and implement innovative design concepts for optimizing power and energy density for ...

... development of advanced battery products for next-generation energy storage system (ESS) and ... Solid understanding of learning theory concepts such as regularization, generalization, loss ...

... development of advanced battery products for next-generation energy storage system (ESS) and ... Solid understanding of learning theory concepts such as regularization, generalization, loss ...

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Advanced Battery Concepts information

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How much do advanced battery concepts jobs pay per hour?

As of Jul 7, 2026, the average hourly pay for advanced battery concepts in the United States is $34.79, according to ZipRecruiter salary data. Most workers in this role earn between $20.43 and $45.67 per hour, depending on experience, location, and employer.

What are some common challenges faced by engineers working in advanced battery concepts, and how can they be addressed?

Engineers in advanced battery concepts often encounter challenges such as optimizing energy density while maintaining safety, managing thermal performance, and scaling up laboratory prototypes for commercial production. Addressing these challenges requires strong collaboration with cross-functional teams in materials science, mechanical engineering, and manufacturing. Staying updated on the latest advancements and adopting iterative testing and prototyping can also help engineers overcome technical hurdles and deliver reliable, innovative battery solutions.

What are Advanced Battery Concepts?

Advanced Battery Concepts refers to innovative technologies and designs in battery systems that improve performance, efficiency, and sustainability compared to traditional batteries. These concepts often include advancements in materials, manufacturing processes, and energy storage mechanisms. They aim to increase battery lifespan, reduce costs, and support applications such as electric vehicles, renewable energy storage, and portable electronics. Companies and researchers in this field focus on developing batteries that are safer, more reliable, and environmentally friendly. Examples include solid-state batteries, lithium-sulfur cells, and advanced lead-acid battery technologies.

What are the key skills and qualifications needed to thrive in Advanced Battery Concepts roles, and why are they important?

To thrive in Advanced Battery Concepts roles, you generally need a strong background in electrochemistry, materials science, and engineering, often supported by a relevant degree such as chemical or electrical engineering. Familiarity with battery management systems, CAD design software, and knowledge of industry standards like ISO or UL certifications are commonly required. Strong problem-solving abilities, effective teamwork, and clear communication skills set outstanding candidates apart. These competencies enable innovation, ensure product safety and reliability, and support successful project execution in a rapidly evolving energy storage sector.

What is the difference between Advanced Battery Concepts vs Battery Engineer?

AspectAdvanced Battery ConceptsBattery Engineer
CredentialsRelevant technical degrees, certifications in battery technologyEngineering degree, often in electrical or chemical engineering, with similar certifications
Work EnvironmentResearch labs, manufacturing facilities, R&D centersDesign offices, testing labs, manufacturing plants
Industry UsageBattery manufacturing, energy storage solutionsBattery design, development, testing in various industries
Common Search IntentBattery technology, manufacturing processesBattery design, performance optimization

Both roles focus on battery technology, with Advanced Battery Concepts often involved in manufacturing and R&D, while Battery Engineers focus on designing and testing battery systems. They share similar credentials and work environments, but their specific responsibilities differ within the industry.

More about Advanced Battery Concepts jobs
What states have the most Advanced Battery Concepts jobs? States with the most job openings for Advanced Battery Concepts jobs include:
Product Engineer

Product Engineer

System One

Franklin Township, NJ โ€ข On-site

$28 - $36/hr

Contractor

Posted 20 days ago


Job description

Job Title: Product Engineer (Battery Electrode Materials / Coatings) Location: Somerset, NJ (Onsite) Type: Contract-to-hire Hours: 8amโ€“5pm or 9amโ€“6pm (flex) Pay: $28โ€“$36/hr (depending upon experience) Overview: A specialty materials company focused on advanced battery materials and nanotechnology - they design and manufacture materials used in lithium-ion and next-generation batteries. Why this role is different This is an engineering-forward, hands-on materials role (not a technician position). Youโ€™ll be working at the intersection of materials science + electrode processing + manufacturing scale-up, with growth potential. What youโ€™ll do

  • Design, develop, and help manufacture battery electrodes, including formulation and processing of:
  • Active material + conductive carbon + binder systems
  • Prepare and optimize powders, dispersions/slurries, and coated films
  • Characterize powders, films, and dispersions (quality, morphology, performance-related properties)
  • Support development of both traditional battery materials and new active materials intended for commercialization
  • Document experiments clearly and collaborate cross-functionally (R&D/manufacturing/customer-facing teams)

Must-haves

  • BS/MS in Chemical Engineering, Chemistry, or Materials Science & Engineering
  • Hands-on experience with powders + slurries/dispersion + coating/film formation (core requirement)
  • Some exposure to battery electrodes (any chemistry is OK)
  • Working knowledge of wet chemistry and/or solid-state chemistry
  • Comfortable with standard lab equipment and hands-on experimental work

Nice-to-haves

  • Electrode processing: slurry mixing, viscosity/rheology, wet coating, tape casting/doctor blade, drying, calendering
  • Battery materials background (Li-ion / Na-ion / solid-state): cathode/anode powders, conductive carbons, solid electrolytes
  • Powder/film characterization: particle size, BET surface area, SEM, XRD, DSC/TGA (or similar)

Key skills Battery electrode processing

  • Slurry formulation (aqueous and NMP-based), dispersion, deagglomeration
  • Coating (tape casting / doctor blade / roll-to-roll concepts), drying, film uniformity
  • Electrode composition optimization (active material / carbon / binder ratios)
  • Powder and film characterization; particle morphology control

Battery materials

  • Cathode materials (Li-ion / Na-ion): NMC/NCA/LFP/LMO/LNMO (and related oxides/phosphates)
  • Anode materials: graphite (natural/synthetic), hard carbon, siliconโ€“carbon, lithium titanate (LTO)
  • Electrolyte / solid electrolyte materials: polymer/ceramic composite electrolytes; solid-state electrolyte concepts (neicorporation.com)
  • Conductive additives / carbons: conductive carbon black, graphene/advanced carbons (as applicable), activated carbon (neicorporation.com)
  • Binders (common electrode binder systems): PVDF, CMC, SBR (latex), PTFE (as applicable)
  • Typical electrode solvents/process chemicals: NMP (non-aqueous processing), water-based binder processing

#M3- #LI- Ref: #558-Scientific