I’ve been a chemistry professor for 15 years and a chemist for longer than that. Through most of that time, I paid little heed to cannabis, thinking that this plant held one main chemical of interest: tetrahydrocannabinol, its psychoactive ingredient.

I now know that cannabis contains a galaxy of unexplored compounds — cannabinoids, terpenes, flavonoids, polyphenols, and more — that may well transform our understanding of plant medicine and human biology. I find this new territory inspiring.

This discovery came about after a colleague put me in touch with a cannabis genomics company that was engaged in the commercial development of rare and novel cannabinoids. Such compounds, which the Cannabis sativa plant makes in low quantities, are emerging into consumer awareness as science advances the understanding and commercial viability of these compounds. Talking with people in the company shifted my view of cannabis — and chemistry. This was relevant, applicable science in all fields: biology, chemistry, plant genetics, pharmacology, engineering, and beyond.

As a chemistry professor at Doane University in Nebraska, I led multimillion-dollar research projects involving molecular sensors, field deployable warfare detection systems, and microfluidic technology to prevent bacterial infections. I published articles in scientific journals. Yet I wanted bigger challenges. As a teacher and a researcher, I knew I couldn’t inspire others if I wasn’t inspired.

Cannabis, and what it might be able to do for human health, inspires me. And I think it can do the same for other scientists and scientists to be.

A news lens on cannabis

New legal frameworks and emerging clinical research have opened the door to research on cannabis and the compounds it makes. In just a few years, we’ve gone from having a rudimentary understanding of the plant’s compounds to discovering crucial connections among cannabinoids and human physiology. Our broader understanding of these plant compounds is boosting the STEM job market.

I spend my days working with a team of experienced bench chemists, engineers, medical researchers, and other professionals — many with a Ph.D. or M.D. after their names — exploring the biology and physiology of cannabinoids and other bioactive compounds derived from cannabis and other plants.

We’ve only begun to scratch the surface of clinical research for the medical and health applications of cannabis. This exploration can’t happen without collaboration between organic chemists, biologists, botanists, agronomy experts, medical doctors, pharmacologists, and experts in clinical trials, drug formulation, and therapeutic product design.

The potential for new and innovative medications and wellness products derived from cannabis could be huge. Promising applications include reducing or relieving pain, quelling nausea, and easing seizures or the symptoms of Parkinson’s disease. Researchers are investigating myriad other conditions that may respond well to cannabinoids and other compounds extracted from cannabis, from skin conditions to mental health issues such as PTSD and anxiety.

Cannabis-derived products are poised to become one of the largest new consumer segments in the U.S. These products tap into several rising consumer trends, including health and wellness as a lifestyle category; a growing demand for plant-based therapies and natural alternatives to prescription drugs; and a renewed emphasis on quality of life among health-conscious demographics.

As the science advances, our ability to isolate various cannabinoids and mix and match formulations could be used to create personalized health and wellness products. Still, consumer packaged goods companies will need solid research data, generated by chemists, extractors, and other laboratory professionals, to make this vision a reality.

Even as scientists work to reveal the full picture of the potential health benefits — and risks — of cannabis and cannabidiol (CBD), much remains unknown. That’s what makes this a fascinating area of scientific inquiry and commercial opportunity, but it is also why responsible scientists must rein in the misinformation and unsubstantiated claims swirling around CBD and other cannabinoids at the moment. Real science is about research and evidence — not hype.

An alternative to academia’s crowded job market

There’s no question that the cannabis industry needs scientists. But it looks as though scientists need the cannabis industry as well.

U.S. universities have been producing more research scientists than academia can accommodate. More scientists are entering the academic job market than retiring. Decreased funding and lack of tenure-track positions have contributed to a tight job market and a scarcity of STEM-related jobs in higher education.

Opportunities created by the federal legalization of hemp are welcome news not simply for STEM professionals facing an increasingly challenging job market, but also for scientists like me who are seeking new frontiers of discovery.

The rise of organizations such as the Institute of Cannabis Research and the International Cannabinoid Research Society, among others, signals the trend of scientists finding new opportunities and inspiration in this space. Mainstream universities are creating programs dedicated to the study of cannabis and public health policy about it: UCLA’s Cannabis Research Initiative, the University of Washington’s Center for Cannabis Research, the University of Vermont’s Medical Cannabis Center for Research and Education, and the University of Maryland School of Pharmacy’s master’s degree program in medical cannabis science and therapeutics, to name just a few.

The best scientists I know are driven to explore the unknown. For me, the unknown I am now focusing on is what cannabis can do for human health, whether I’m doing that in the lab of the company I co-founded or creating an online cannabis certification program through Doane University.

For other scientists propelled by the thrill of discovery, cannabis — a commonplace yet spectacularly complex plant — offers the chance to set a new course in human understanding and health.

Andrea Holmes, Ph.D., is a professor of chemistry at Doane University and co-founder and chief growth officer of Precision Plant Molecules, based in Welby, Colo.