The overall goal of our work is to disrupt pervasive narratives and misplaced assessments of what defines scientific brilliance, specifically in the introductory chemistry classroom. The traditional design of science, technology, education, and math (STEM) courses perpetuates the narrow view that intelligence is characterized by innate talent,…

Given the emphasis placed on laboratory reform and student engagement in authentic science practice, this manuscript outlines the development of a hybrid project-based laboratory (HPBL) curriculum centered around specific instructor goals and provides examples on how those goals were met by the experiments and how the change in curriculum affected…

The fundamental structure of a typical mainstream two-semester organic chemistry course, populated mostly by life science majors and taught at universities throughout the United States, has changed little since the 1970s. However, much of the research on learning in organic chemistry has been devoted to characterizing student difficulties of…

Curricular change within the chemistry curriculum is often difficult and slow, in part because there are numerous specific barriers to implementation. However, a larger issue is that the curriculum, and the institutions that it is connected with, are complex systems. In the implementation of a new green chemistry curriculum for the organic…

This article describes the process of designing a new four-year curriculum at Emory University. Acknowledging the limitations of traditional curricula and pedagogy, the major goals of this reform effort include an emphasis on core ideas and scientific practices rather than content and historical course boundaries in order to convey the excitement,…

The complexity of the world's current grand challenges demands interdisciplinary approaches. The education of future scientists must cross the silos of the traditional disciplines; however, there is still a strong reluctance to tear such walls down. Here, we describe an integrative chemical biology course focused on epigenetics that strives to…

We reported a redesign of a physical chemistry laboratory course (CHEM 166) for our chemistry majors at the University of Vermont carried out during the COVID-19 pandemic. We started to teach this course after a curriculum reform, which split an upper-division undergraduate laboratory course into physical and analytical chemistry laboratories. To…

As the SARS-CoV-2 pandemic spread throughout the world, universities were faced with extraordinary challenges. Shelter-in-place orders were given, in-person classes were canceled, and at the University of California Irvine, instructors had less than 2 weeks to convert spring quarter classes from a face-to-face to an online format. A team-based…

U.S. education generally portrays science from the Western perspective. As a result, students from different cultures, also referred to as nonmajority students, often struggle to relate material learned in class to their own cultures and lived experiences. Cultural relevance is gaining momentum in broader education reform movements to relate…

Collaborations and partnerships across disciplines are becoming increasingly recognized as valuable endeavors toward solving emerging global challenges in our rapidly changing world. Thus, it is crucial to create STEM educational strategies that infuse diverse and interconnected perspectives among scientists, policymakers, and the general public.…

Green chemistry and sustainability have garnered more awareness in the chemical industry in recent years, but green chemistry classes are still not commonplace for either the undergraduate or graduate student curriculum. Additionally, many departments are seeking avenues to reach greater numbers and types of learners through online courses. To…

Recently there has been a renewed interest in the development and use of pedagogical games, as they provide an interesting approach to the appropriation of knowledge in the context of active learning. However, most didactic games fail to completely implement a cycle of reflection and action, thereby fostering mostly lower-order thinking skills and…

A summary of fundamental changes made to the undergraduate physical chemistry curriculum in the Chemistry Department at Gustavus Adolphus College (beginning in the 2013-2014 academic year) is presented. The yearlong sequence now consists of an introductory semester covering both quantum mechanics and thermodynamics/kinetics, followed by a second…

A significant redesign of the introductory organic chemistry curriculum at the authors' institution is described. There are two aspects that differ greatly from a typical functional group approach. First, organic reaction mechanisms and the electron-pushing formalism are taught before students have learned a single reaction. The conservation of…

Polymers are part of our lives; scientists dedicated to polymer science design new materials thinking about more eco-friendly methodologies and satisfying people's needs. In most universities, polymer science is taught by academics associated with the traditional chemistry departments (organic, analytical, physical, and inorganic chemistry). In…