This role is 100% onsite, Lab based in Client HQ-Thousand Oaks (USTO). No opportunity for remote work. Please only submit local candidates.
EW will be working a standard schedule of : Standard 8 hour work day w / 0.5-1h for lunch, M-F
Intake call notes :
What type of qualities / characteristics are you looking for in candidates to work best with your team? Great teamwork skills, willingness to learn / train, problem-solving ability
When reviewing resumes, what stands out to you when looking for the right applicants? Those with laboratory experience, commitment to safety
What are your non negotiables for candidates? This role will require onsite lab support so candidate needs to be able to reliably come to site
3 Qualities of your ideal candidate? familiarity with pilot or lab-scale batch reactor systems and see above
Job Description
HOW MIGHT YOU DEFY IMAGINATION?
You ve worked hard to become the professional you are today and are now ready to take the next step in your career. How will you put your skills, experience, and passion to work toward your goals?
At Client, our shared mission to serve patients drives all that we do. It is key to our becoming one of the world s leading biotechnology companies, reaching over 10 million patients worldwide.
Come do your best work alongside other innovative, driven professionals in this meaningful role.
What you will do
Let s do this. Let s change the world. In this vital role you will be responsible for supporting process development and technical transfer of Client s synthetic drug substance manufacturing processes through lab management of the High-Pressure Development Lab (HPDL), acting as equipment and instrument owner, and leading inventory maintenance and chemical / equipment ordering and shipping.
The HPDL is integral to the design, optimization, and development of key and enabling chemical transformations for pharmaceutical development.
This enabling capability within the DSTS organization critically supports programs across all stages of development, including route selection, process optimization, and process characterization.