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How to Make Chemistry a Gateway — Not a Gatekeeper — to STEM?

One Course Creates Sense of Belonging

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Lea Nglankong, a ٺƵ undergraduate teaching assistant, stands in front of a chemistry support class and goes over a practice exam during winter quarter 2022.
Lea Nglankong, a ٺƵ undergraduate teaching assistant, goes over a practice exam during a chemistry support class in winter quarter 2022 (Bill Clough, Captivating Photos).

As a college freshman, Mya Ajanel’s dreams of one day achieving a veterinary degree were nearly derailed by chemistry.

“I barely passed the first quarter, so I definitely had fear of just finishing the general chemistry series,” she said. “I remember crying and thinking I’m not going to be a vet; it’s too hard.”

But Ajanel’s dread — and her self-confidence — changed for the better, thanks to a ٺƵ class created to address the barriers and opportunity gaps faced by students historically excluded from STEM. Taught alongside general chemistry, the course, called CHE98, bolsters both academic and social-emotional learning to help provide students with a sense of belonging and a supportive learning environment. It was first conceived in 2016 and expanded in 2020 to serve more people.

“There are a lot of programs that try to help minority students by offering academic support, but that’s not enough,” said Jessica Ortiz, a doctoral student in chemistry who taught the first class. “You have to support students in a way that they believe in themselves. I’m an underrepresented student, and if I didn’t have role models— those people to push me, I wouldn’t be here today,” she said.

Results from a study of student outcomes found grades went up — 61% of students in the class received a C+ or higher in general chemistry, versus 47% for a comparison group that didn’t take the class Additionally, among students who obtained C+ or higher grades, there was no significant difference in grades between the general population and students from the support class. This suggests the class helped remove opportunity gaps and promote equity among students. The results, published in the , also found a positive influence on underrepresented student retention in STEM.  

“You have to support students in a way that they believe in themselves. I’m an underrepresented student, and if I didn’t have role models— those people to push me, I wouldn’t be here today.” — Jessica Ortiz

Ajanel’s chemistry grade went from a C+ to an A+ after enrolling in the course, and she’s now applying to vet schools. “It gave me that self-esteem and that boost I needed to continue, and seeing Jessica, a Latina, [teach the class] was the representation that I needed,” she said. 

Students Mamta Rajput and Xiaoyi Yuan study together on a tablet during a chemistry class created to address the barriers and opportunity gaps faced by students historically excluded from STEM.
Students Xiaoyi Yuan and Mamta Rajput interact during a chemistry class created to address the barriers and opportunity gaps faced by students historically excluded from STEM (Bill Clough, Captivating Photos).

Making STEM more welcoming

Because many majors require at least one chemistry class, undergraduate chemistry can be a gatekeeper or “weed-out” course for students from all backgrounds. And groups historically excluded from STEM — such as first-generation, low-income and minority students — face more risk factors for academic success. 

That’s why Bryan Enderle and Jesús Velázquez, both faculty in the Department of Chemistry, developed the “co-class” — to facilitate a teaching environment that could meet the diverse needs of students.  

A headshot of Jesús Velázquez.
Jesús Velázquez (Bill Clough, Captivating Photos).

“As a professor that has all the labels, I know firsthand, everything they’re going through,” said Velázquez, an assistant professor of chemistry who grew up in Puerto Rico. “Given the experiences I had as a student, I thought that if I had the opportunity to teach students at this level, I wanted to support their experience regardless of the circumstances and backgrounds they came from,” he said.

The co-classes are intentionally small, limited to 20 students and taught in multiple sections to accommodate everyone. The sections were offered to students in the ٺƵ Educational Opportunity Program, which helps students from historically disadvantaged communities prepare for college.

Academic support includes reviewing the course material, providing practice exams and practice exam reviews. The classes also cover issues such as mental health, anxiety, self-doubt and diversity in science. The teaching style of each section adapts to student needs throughout the quarter.

During the first wave of COVID-19, instructors addressed academic disparities created by remote learning and the loss of classroom community during isolation. Students reported that discussions about their emotions and struggles were one of the class’s strengths.

“There’s so much work that went on behind the scenes that can never be derived by a research paper,” said Lea Nglankong (B.S., biopsychology, ’22), who taught the class as an undergraduate teaching assistant. “It doesn’t portray the 11 p.m. phone calls from students who wanted to drop out, a student who attended my class from a laundromat, a student struggling to communicate in English.” Nglankong plans to earn her teaching credential following graduation, and hopes to work at a low-income school in her hometown of Sacramento.

Closing the equity gaps

How is the program funded?

Enderle and Velázquez launched their project with a grant from the office of Vice Provost and Dean of Undergraduate Education. Additional funding was provided by Provost and Executive Vice Chancellor Mary Croughan through the Closing Student Opportunity Gaps program. Velázquez also provided financial support through a National Science Foundation CAREER grant and a Cottrell Scholar award.

The general chemistry co-class is just one of many ways the Department of Chemistry is developing new initiatives to eliminate equity gaps and increase diversity in STEM. Professor Annaliese Franz has offered a summer prep class in organic chemistry. The department also received approval this year to split general chemistry in tracks for majors and non-majors, which faculty predict will help provide a more equitable teaching environment. The department also offers a peer mentoring program to help first-year undergraduate and first-year transfer students majoring in chemistry successfully transition into college life.

A headshot of Bryan Enderle.
Bryan Enderle (Bill Clough, Captivating Photos).

“In my opinion, this is only the beginning,” Velázquez said. “I’ve always envisioned building something bigger to respond to the many challenges students endure.”

Enderle first piloted the class in 2016 in partnership with Susan Keen, senior lecturer in the ٺƵ College of Biological Sciences, and with one-time funding from the University of California’s Local Control Funding Formula budget.

The instructors hope to find new grant support to continue the class in fall 2022.

Their efforts could benefit thousands of students — more than 25,000 people at ٺƵ take chemistry classes every year.

“We’ve had a really tangible impact on improving students’ lives, and that’s what gives me hope and makes me excited about this program,” said chemistry graduate student and instructor Hannah Brinkman.

Media Resources

Media contact:

  • Karen Nikos-Rose, ٺƵ Media Relations, kmnikos@ucdavis.edu

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