Factorial Energy

Senior procesingeniør for anode/SE-elektrode

Bliv senior procesingeniør hos Factorial Energy i Cheonan, Sydkorea. Led udviklingen af våd slurry-coating til anoder og sulfide-elektrolytter i solid-state batterier. Arbejd med R&D, pilotopskalering og produktion. Få erfaring med banebrydende batteriteknologi i et innovativt amerikansk firma.
Factorial Energy
Factorial Energy Cheonan, Sydkorea På stedet Fuldtid UTC+09:00

Factorial Energy

Virksomhedsoversigt

Factorial Energy

Woburn, Massachusetts, USA

2013

Ca. 150 ansatte (kilde: linkedin.com). Factorial har rejst over 65 millioner dollars og opnået en værdiansættelse på 1 milliard dollars (kilde: batteryburnbook.com).

Hvad de laver

Factorial Energy specialiserer sig i udviklingen af solid-state batterier, som er afgørende for forskellige anvendelser, herunder elektrisk mobilitet, forsvar, AI/robotik, luftfart, el-værktøj, marine køretøjer, forbrugerelektronik og energilagringssystemer. Deres teknologi lægger vægt på høj energitæthed, hvilket opnår 350-450 Wh/kg sammenlignet med de 200-300 Wh/kg, der er typiske for nuværende elektriske køretøjer (EV) celler. Derudover er Factorials batterier designet til forbedret sikkerhed, hurtig opladning og et bredt drifts temperaturinterval fra -30°C til 45°C (kilde: factorialenergy.com).

Kernen i deres innovation ligger i Factorial Electrolyte System Technology (FEST®), som anvender en quasi-solid polymer elektrolyt kombineret med en ultratynd lithium-metal anode og en højkapacitets katode. Denne teknologi muliggør cirka 80% kompatibilitet med eksisterende lithium-ion produktionslinjer, hvilket letter skalerbarhed og integration i nuværende produktionsprocesser (kilde: factorialenergy.com).

Komplementære teknologier som Solstice™, en sulfid-baseret all-solid-state elektrolyt, og Gammatron™, en AI-drevet batteri digital tvilling software, forbedrer yderligere deres tilbud. Solstice™ har høj termisk stabilitet og nul væskeindhold, mens Gammatron™ fremskynder F&U i elektrolytudvikling og batteristyringssystemer (kilde: enertherm-engineering.com).

Projekter & Resultater

Factorial Energy har opnået betydelige milepæle inden for batteriudvikling, herunder en række prototyper, der gradvist er steget i kapacitet og kompleksitet. Bemærkelsesværdige præstationer inkluderer valideringen af 0,6 Ah Li-metal kemi i 2017, introduktionen af en 40 Ah 30-lags grafit anode prototype i 2021, og afsløringen af en 106 Ah automobil B-prøve celle på CES 2023. Disse fremskridt viser Factorials engagement i at presse grænserne for solid-state batteriteknologi (kilde: factorialenergy.com).

Seneste udviklinger

I oktober 2023 indviede Factorial Energy sin 50 millioner dollars produktionsfacilitet i Methuen, Massachusetts, som forventes at blive den største solid-state batteriproduktionslinje i USA med en kapacitet på 200 MWh. Denne facilitet forventes at forbedre deres produktionskapaciteter betydeligt og støtte skaleringen af automobilapplikationer (kilde: waveep.com).

I 2024 sendte virksomheden 106 Ah B-prøver til forskellige OEM'er og afslørede deres Solstice™ teknologi efter en periode med stealth-udvikling. Derudover er de blevet anerkendt som en førende aktør inden for deep tech-sektoren, rangerende som nr. 25 blandt de 100 bedste private deep tech virksomheder (kilde: factorialenergy.com).

At arbejde der

Factorial Energy ansætter aktivt på tværs af forskellige afdelinger, herunder F&U, produktion, salg og ingeniørarbejde, især som svar på deres seneste ekspansionsindsats. Methuen-faciliteten forventes at skabe over 150 jobs, hvilket bidrager til den lokale økonomi, mens det understøtter virksomhedens vækst inden for produktion af solid-state batterier. Virksomhedskulturen lægger vægt på hastighed og innovation, med fokus på etisk styring og bæredygtighedsmål, herunder en forpligtelse til kulstofneutral produktion inden midten af 2030 (kilde: factorialenergy.com).

Sidst opdateret den feb. 23, 2026 | Rapporter et problem

Factorial Energy is a pioneering U.S.-based solid-state battery company driving the future of energy storage and electrification. Partnered with global leaders including Mercedes-Benz, Stellantis, Hyundai, and Kia, Factorial is at the forefront of developing next-generation e-mobility platforms for commercial, defense, and consumer applications-spanning electric vehicles (EVs), drones, eVTOL aircraft, power tools, marine systems, robotics, and more. The company has achieved multiple industry firsts, including being the first to power a demonstration vehicle with a global OEM (Mercedes-Benz) which achieved over 1,200???km (749???mi) of range, the first to earn UN???38.3 certification for automotive-sized solid-state cells, and the first to deliver B-samples of automotive-sized solid-state batteries to major OEMs.

The Opportunity

Factorial is looking for an All-Solid-State Battery Anode Wet & SE Slurry Coating Process Engineer responsible for the wet slurry coating process and equipment development for anode and sulfide-based solid electrolyte (SE) applications. We leverage cutting-edge wet electrode manufacturing to revolutionize all-solid-state battery performance, cost, and scalability. This role requires experience in close cooperation with internal teams and external partners. This candidate will be involved from the beginning of process optimization for R&D projects, pilot line scale-up, and through to low/high-volume production. The candidate must demonstrate excellent written and verbal communication skills to facilitate efficient communication between various departments/vendors.

Duties and Responsibilities

Duties and responsibilities include, but are not limited to:

All-Solid-State Battery Anode Wet & SE Slurry Coating Process Development

  • Lead R&D efforts to design, optimize, and scale wet slurry coating processes for ASSB anode and sulfide SE applications.
  • Develop novel slurry formulations and coating strategies to enhance electrode-electrolyte interfacial compatibility, ionic transport efficiency, and cycling stability.
  • Establish critical process parameters (e.g., slurry dispersion, viscosity control, coating speed, drying profiles) to meet all-solid-state battery performance specifications.
  • Address key wet coating challenges specific to ASSB: solvent selection, slurry sedimentation, SE-solvent compatibility, and interfacial side reaction control.

Quality & Yield Improvement

  • Identify root causes of wet coating defects (e.g., pinholes, thickness non-uniformity, cracks, lithium dendrite penetration) and implement corrective actions.
  • Utilize statistical analysis (SPC, DOE) to drive yield improvements and reduce process variability.
  • Collaborate with PD/QA to define testing protocols and quality standards for wet-processed all-solid-state electrodes.

Production Efficiency & Scalability

  • Optimize manufacturing workflows to increase throughput and reduce unit production costs.
  • Design experiments to validate process scalability from lab to pilot line to mass production.
  • Troubleshoot equipment/process issues to minimize downtime.

Next-Generation Equipment Development

  • Partner with equipment vendors to conceptualize, prototype, and validate next-gen wet coating electrode machinery.
  • Define technical specifications for new equipment (e.g., vacuum-integrated drying systems, solvent recovery units).
  • Drive innovation in automation, in-line monitoring, and Industry 4.0 integration.

Must Have Qualifications

Technical Expertise

  • 3+ years of hands-on experience in wet electrode coating manufacturing for lithium-ion batteries, sulfide electrolyte system experience highly preferred.
  • Deep knowledge of wet process steps: slurry preparation (dispersion, deaeration), precision coating (doctor blade/slot-die), vacuum drying, calendaring, and lamination.
  • Proficiency in material characterization (SEM, XRD, adhesion testing) and data analysis tools (JMP, Minitab).

Process & Quality Tools

  • Mastery of DOE, SPC, FMEA, and Six Sigma methodologies.
  • Experience scaling processes from R&D to high-volume production.

Equipment & Innovation

  • Proven ability to collaborate with equipment suppliers on custom solutions.
  • Familiarity with ASSB-specific process challenges (moisture control, interfacial stability, mechanical pressure sensitivity).

Education & Collaboration

  • Master's in chemical/Materials/Mechanical Engineering or related field.
  • Strong cross-functional skills to work with R&D, production, and supply chain teams.

Nice to Have Qualifications

Preferred Qualifications

  • Hands-on experience with sulfide solid electrolyte systems or halide electrolyte systems.
  • In-depth understanding of binder systems (PVDF, CMC/SBR) and conductive additives behavior in wet coating processes.

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Om rollen

28. april 2026

Fuldtid

Virksomhed

4. maj 2026

På stedet

Energilagring

Factorial Energy

factorialenergy.com

  •  Cheonan, Sydkorea

3+ years

UTC+09:00

Tags

Batteriteknologi · Materialteknik · Faststofbatterier