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Undergraduate research set recent alumnus Zachary Blonder on his current career path, one that could lead to a vaccine for COVID-19.

Blonder, who earned a degree in chemical engineering in 2017, is currently working as a senior associate in the supply chain organization of biotechnology company Moderna in Massachusetts. His experience conducting research on processes relevant to pharmaceuticals synthesis with Nisha Shukla, principal systems scientist at the College of Engineering’s Engineering Research Accelerator, as an undergraduate steered Blonder toward a position in the pharma industry after graduation.

Blonder credits his research with Shukla, which was funded in part by the SURF (Summer Undergraduate Research Fellowships)/SURG (Small Undergraduate Research Grants) program in Carnegie Mellon University’s Undergraduate Research Office, with giving him skills and knowledge that he applies to his current work at Moderna.  “Owning a research project as an independent researcher in [Shukla’s] lab taught me to become a responsible and methodical worker where the actions and decisions I made had direct impactful results to our end goal,” Blonder says. “This is much like my work in supply chain, where the setup is critical for rapid scale up and decisions have long-standing, visible impacts.”  Over the last eight to nine months, Moderna has been at the forefront of the fight against the COVID-19 pandemic due to its production and clinical trials of mRNA-1273, a leading vaccine candidate to protect against SARS-CoV-2. During Moderna’s involvement with this project, Blonder has been a supply chain lead in various elements of the production and material planning processes, working to ensure that the production capacity will meet the required demand for production. His team is focused on making sure that the relatively new technology, centered on mRNA vaccines, has access to the full supply of raw materials needed for production and ensure the operation is efficient.  “I am lucky to have a chemical engineering background in this role in Moderna,” Blonder explains. “This academic experience ingrained the necessity to build a process where the input variables may change in any direction, but the system can generate the desired output as a result without further manipulation. This mindset allows for quick action and scenario planning, rather than recreating the path from situation to analyzed result with each changing variable.”

Source: Carnegie Mellon University

Some of Zachary Blonder’s work, which was funded by SURG/SURF grants, has been published recently in the journal Nanomaterials and could have broader impact in the separation of chiral pharmaceuticals into their pure enantiomer form.

Blonder credits his research with Shukla, which was funded in part by the SURF (Summer Undergraduate Research Fellowships)/SURG (Small Undergraduate Research Grants) program in Carnegie Mellon University’s Undergraduate Research Office, with giving him skills and knowledge that he applies to his current work at Moderna.

“Owning a research project as an independent researcher in [Shukla’s] lab taught me to become a responsible and methodical worker where the actions and decisions I made had direct impactful results to our end goal,” Blonder says. “This is much like my work in supply chain, where the setup is critical for rapid scale up and decisions have long-standing, visible impacts.”

Over the last eight to nine months, Moderna has been at the forefront of the fight against the COVID-19 pandemic due to its production and clinical trials of mRNA-1273, a leading vaccine candidate to protect against SARS-CoV-2. During Moderna’s involvement with this project, Blonder has been a supply chain lead in various elements of the production and material planning processes, working to ensure that the production capacity will meet the required demand for production. His team is focused on making sure that the relatively new technology, centered on mRNA vaccines, has access to the full supply of raw materials needed for production and ensure the operation is efficient.

“I am lucky to have a chemical engineering background in this role in Moderna,” Blonder explains. “This academic experience ingrained the necessity to build a process where the input variables may change in any direction, but the system can generate the desired output as a result without further manipulation. This mindset allows for quick action and scenario planning, rather than recreating the path from situation to analyzed result with each changing variable.”

The thought of a potentially life-saving medicine that Moderna is developing is a common motivator that drives me and my team relentlessly forward.

Zachary Blonder, Alumnus, Chemical Engineering

In his position, Zachary has the opportunity to help drive the structure of these business systems and build a dynamic production planning base process that scales up and optimizes the available supplies and timelines.

“Dr. Shukla drove me to communicate my roadblocks and “turn over every stone” when the situation at hand presents an unexpected change. I appreciate these experiences and they have given me the background to work in a field I wouldn’t expect, working on a project that I couldn’t have imagined,” Blonder says. “The thought of a potentially life-saving medicine that Moderna is developing is a common motivator that drives me and my team relentlessly forward.”

Story originally published at cmu.edu