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Cambridge Isotope Laboratories

Group Leader, Research Products

Cambridge Isotope Laboratories, Andover, Massachusetts, us, 05544


Cambridge Isotope Laboratories, Inc. (CIL) is searching for a Group Leader within our Research Products team based onsite in our Andover, MA facility. CIL is the global leading company in a highly technical, extremely fast-growing industry and is a critical supplier to several scientific and high technology markets. CIL's growing customer base spans academia, pharmaceutical, medical diagnostic and semiconductor industries enabling collaborations with Nobel laureates, industry-leading scientists, and chemists. CIL partners with leading instrument manufacturers as well pioneering research groups that have expertise in product development and drive market growth. CIL is a subsidiary of the Otsuka Pharmaceutical Group and has had consistent growth for over 40 years.

The Group Leader, RP is responsible for overseeing a team (typically 4 – 7) of BS/MS and PhD level Chemists performing the de novo synthesis of a wide variety of isotopically labeled targets to customer and production requirements. Managerial responsibilities include: being a safety leader, understanding safety policies, ensuring the implementation of safety policies, work supervision and evaluation, performance development, driving continuous improvement projects and addressing employee relations issues. Additionally, the Group Leader, RP is responsible for carrying out complex, non-routine synthetic chemistry.

Requirements

Ensure the implementation of CIL safety policies and other policies in general

Review and evaluate safety aspects of the projects to ensure safety standards are met, as well as having the awareness to recognize potential instances of abuse

Lead by example to ensure team members maintaining good housekeeping of their area by using 5S

Committed to driving continuous improvement projects

Oversee and direct their team members in the process and completion of synthetic chemistry set forth in the project system

Utilize advanced knowledge of theoretical and practical aspects of synthetic chemistry to carry out complex synthetic procedures and solve technical problems

Mentor and coach group members to foster and enhance professional and technical development within the department

Conduct team member performance evaluations annually

Synthesize complex, non-routine target compounds generally containing 15N, 18O, D and/or 13C

Analyze and interpret data obtained from nuclear magnetic resonance (NMR), ultraviolet (UV), mass (MS), HPLC and infrared (IR) spectroscopy

Utilize purification techniques which include: chromatography, distillation, recrystallization and sublimation

Develop effective relationships with external departments (e.g. Supply Chain, Quality Control, and Technical Services)

Keep an accurate and detailed laboratory notebook

Perform any related work as necessary

Requirements

Ph.D. in Synthetic Organic Chemistry or closely related field

Five (5) years of work experience in organic chemistry and/or synthesis including two years managing other chemists and a variety of ongoing synthetic chemistry projects

Excellent laboratory technique and communication skills, a broad knowledge of organic synthetic methods, strong analytical skills and a proficiency in chemical separation and identification of organic compounds

Electronic Lab Notebook (ELN) experience a plus

Regularly performs bench chemistry which requires standing, bending and stooping

In accordance with CIL safety requirements, regularly performs synthesis and related chemical processes in a hooded, controlled lab environment

Exposure to hazardous and non-hazardous chemicals

Must be able to lift 50 lbs. daily, transport drums of chemicals using a drum dolly, some drums up to 55 gallons

Benefits

CIL and CIS offer a competitive salary and comprehensive benefits including generous paid time off, Long Term Incentives, 6% matching 401K plan and health insurance with no in-network deductible.

CIL is an EEO/Affirmative Action employer.

Learn more about us on our website: www.isotope.com

About Us:

Cambridge Isotope Laboratories, Inc. (CIL) is the world’s leading producer of stable isotopes (http://www.isotope.com/userfiles/files/assetLibrary/MET_MATTHEWS.pdf) and stable isotope-labeled compounds. With approximately 750 employees and laboratories in four countries, CIL specializes in the process of labeling biochemical and organic compounds with highly enriched, stable (nonradioactive) isotopes of carbon, hydrogen, nitrogen and oxygen. Our chemists substitute common atoms (e.g., 1H, 12C, 14N, 16O) with rare, highly valued isotopes (e.g., 2H or D, 13C, 15N, 18O) so that the final product can be readily measured or traced using mass spectrometry (MS) or nuclear magnetic resonance (NMR). CIL’s products are utilized in laboratories, medical, government and academic research centers and health care facilities worldwide.

We are proud that CIL products have contributed to medical advancements in cancer research, new-drug development, environmental analysis, and medical diagnostic research. In the past decade, as the fields of proteomics and metabolomics have developed as leading techniques for determining biomarkers for disease presence, progression and the monitoring of therapeutic response, CIL has worked closely with industry leaders and researchers to provide the stable isotope-labeled tools needed for improved quantitation and qualification of complex biological systems.

After decades of research, stable isotopes have found their place in an ever expanding commercial scale applications in pharmaceuticals, semiconductors, flat panel displays as well as other high technology fields specifically with deuterium oxide (D2O) and deuterium gases. Pharmaceutical companies have begun to investigate deuteration of molecules that may provide advantages over their existing nondeuterated counterparts. In addition, increasing research into the potential medical advantages of new deuterated drugs is also occurring. In high technology, deuterated organic molecules and deuterium gas are commonly used in the manufacturing of microelectronics and OLEDs, which contribute to the increased lifetime of the devices.

Learn more about us on our website: www.isotope.com