In your career, let’s prove what’s possible.
- Work in a cleanroom laboratory as part of the Process Engineering team supporting new product development, characterizing current process
- applications, and performing customer demos
- Operational proficiency of clean processing equipment and wafer metrology tools
- Along with engineering team, prepare equipment and execute test plans
- Analyze and interpret data to draw inferences and make recommendations
- Perform baseline qualifications of lab tools, identify problems, and work with appropriate team to resolve issues
- Assist engineers in execution, data collection and test reporting of customer demos
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Your future responsibilities
- Development of magnetron sputtering processes for piezoelectric nitrides (AlN, AlScN, AlXN) on wide band gap substrates (SiC, GaN) with a state-of-the-art cluster tool
- Design of layer stack and process development for seed/buffer layers and metallic electrodes
- Thin film structural and functional characterization (incl. XRD, ellipsometry, AFM, piezoelectric characterization)
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In your career, let’s prove what’s possible.
- Responsible for performing professional process engineering research, development and evaluation in support of the company’s complex semiconductor capital equipment and systems.
- Reviews processing techniques and methods applied in the manufacture, fabrication and evaluation of products. Involvement may begin at any step from C&F activities, over pilot plant to full-scale manufacturing.
- May conceive and plan projects involving definition and selection of new concepts and approaches in the processing or development of new processes.
- Compiles and evaluates test data to determine appropriate limits and variables for process specifications.
- Supports senior engineers and customer technology managers in the planning, data collection, analysis, and reporting of customer demos to defend existing process applications.
- Works with customers and senior engineers cross functionally to understand roadmaps, process flow, inflection points, requirements and business issues/ challenges.
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In your career, let’s prove what’s possible.
- Develops, monitors and supports EHS functions to ensure compliance and continuous improvement. Works collaboratively with stakeholders, teammates, and other support resources.
- Leads projects to address EHS AOP objectives.
- Owns EHS programs that are subject to significant change, re-development, or improvement.
- Capable of motivating stakeholders to meet commitments towards EHS objectives.
- Capable of project planning, prioritization and achievement to goals and schedule.
- Makes interpretations to EHS regulations and protocols in alignment with EHS leadership.
- Decides and aligns on methods for implementing EHS initiatives and the parameters of those initiatives.
- Accountable to the objectives owned by the function and applicable area.
- Manages environmental permits for air, wastewater, stormwater, etc. manages reporting, permit compliance, and regulatory inspections.
- Manage the chemical safety and hygiene plan, including all aspects related to chemical management, chemical exposure monitoring, exposure threshold limit determinations, and risk / assessment mitigation.
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Your future responsibilities
- Development of new dry etch processes for new materials with a state-of-the-art etching tool
- Thin film surface characterization (incl.SEM, EDX, ellipsometry, AFM, XPS)
- Design and execution of advanced experiments, data analyses, and process improvements
- Collaborate as part of the Thin Film Technologies Research Unit in Microsystems Division and SAL Microfab Division in ongoing projects by performing state-of-the-art investigations on dry etch processes and thin-film technology for diverse MEMS applications and beyond
- Understanding the scientific aspects of dry etch processes on the targeted material, and using them to improve the processes
- Performing data analysis using analytical calculations, modelling, and standard statistical methods
- Generating innovative ideas to improve etching processes.
- Working in advanced ISO5 clean room facility
- Project management
- Scientific communication, reporting of research results and drive technical innovation and IP generation
- Active contribution in the acquisition of new industrial, funded or service projects
- Applying scientific methodologies to the development of dry etch processes
- Following scientific methodology in analyzing and reporting of results
- Driving scientific publications (peer-reviewed papers, participation to conferences) regarding dry etch processes
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Your future responsibilities
- University degree (Diploma, Magister, Master’s) in Physics/Chemistry/Materials Science (solid state physics, chemical engineering, physical chemistry, materials science/physics/chemistry, or related) completed with above-average results*.
- Previous experience in thin film deposition and characterization.
- Excellent experimental and analytical skills.
- Strong interest in applied research, creativity in contributing ideas and eager to engage with the ALD community .
- Excellent English communication skills in written and oral form.
- Preferred qualifications:
- prior experience with atomic layer deposition
- knowledge on nitride materials
- characterization skills: XRD, SE, AFM, SEM, XPS,…
- knowledge on plasma processes
- previous experience with peer-reviewed publishing of scientific results*see requirements of TUM admission Requirements - TUM Graduate School
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