New Jersey Institute of Technology (NJIT) researchers have unveiled a new lab technique they say represents a “paradigm shift” in how pharmaceutical laboratories test and produce new protein-based drugs, such as therapeutic monoclonal antibodies being developed to treat a variety of diseases, from cancers to infectious diseases.  

Sreya Sanyal ’22 is right where she wants to be in the fight against cancer — at the cutting-edge of medical research. She’ll soon be using the breakthrough gene-editing technology CRISPR-Cas9, often described as “genetic scissors”, to study human disease as a post baccalaureate researcher with the National Institutes of Health (NIH) after graduation.

For Sanyal, whose parents met and graduated from medical school in India, her journey toward a career as a physician-scientist specializing in cancer biology has deep roots, beginning at the age of 10. 

NJIT undergrads continue to earn the nation’s top academic honors, the latest being a new university record of four students named Goldwater Scholars this year by the Barry Goldwater Scholarship and Excellence in Education Foundation. The scholarship is recognized among the country’s most prestigious for STEM undergraduates pursuing research careers.

Remora fishes are famed hitchhikers of the marine world, possessing high-powered suction disks on the back of their head for attaching themselves in torpedo-like fashion to larger hosts that can provide food and safety — from whales and sharks to boats and divers.

This month, the work of NJIT’s top student researchers was put on display at the 2018 Knox Student Research Showcase, “A Glimpse Into the Future”. 

The showcase, which annually honors outstanding research done at NJIT by its graduate and undergraduate students, awarded Najmaddin Akhundov first place among this year’s graduate researchers for developing a computational model to track and control invasive species that threaten the environment.

In fall 2018, NJIT's College of Science and Liberal Arts will launch its new Professional Biotechnology Option, offered as part of the Department of Chemistry and Environmental Science’s pharmaceutical chemistry master's program.

From large-scale weather or environmental disaster predictions and efficient design of vehicles and power generators, to understanding how bacteria propel themselves and how nutrients are delivered to different organs in our body at the cell level — researchers will need to find new ways of studying the complex flow of liquids, gases and plasmas that drive or characterize intricate climatic, transportation and biological systems.