Undergraduate research is an important experience that increases retention, ownership, and learning. Integrating research experiences into the classroom is the focus of course-based undergraduate research education (CUREs) and has become an important tool in curricula of many universities. This article will serve as a guide for those interested in…

Laboratory education makes up an extensive part of natural science education at universities. To support meaningful learning during laboratory work, students should prepare by carefully studying the protocols. The aim of this study was to design and evaluate a preparative learning material that focuses on protocol steps with the design goal to…

Nationally, as the chemical community aspires to become more diverse, it is essential to make students of all races, ethnicities, gender expressions, and physical abilities feel welcomed and represented in the introductory courses in the field. One way to accomplish this goal is to present examples of scientists who are not traditionally included…

Discussions on decolonizing the curriculum are common in Humanities and Social Science Faculties but still rare in the Physical Sciences. In this commentary, we describe the work we have conducted to begin decolonizing and diversifying our undergraduate chemistry curriculum. We also discuss what it means to decolonize chemistry and reflect on why…

It is generally accepted that if a course or curricular transformation is to be implemented with fidelity, the users must understand how and why the transformation is different from their current practices and which aspects of the transformation are essential to achieving comparable student learning outcomes. In this article, we provide a detailed…

Backward Design is a well-known method for curricular development in which an instructor first identifies desired learning ends and then "works backwards" to determine the necessary means to these ends. Unfortunately, its use in the design of undergraduate chemistry curricular components is not necessarily widespread. This paper will…

Climate change has the potential to push humans across the limits at which we can exist. Chemistry is essential in understanding the complexities of climate change, as many of the processes involve chemical relationships. Textbooks influence the development of course curricula and support instructors' decision making, which can impact student…

An online module for final-year master's students has been developed over a 5-year period. The module allows equitable experiences for students studying in person at the University of York, at a university abroad, or undertaking an industrial placement. Distinctively, the module was designed around the use of modern research papers, published by…

This work is a course proposal for a stronger ethics education component for chemistry undergraduates. We propose that this course should integrate different approaches in ethics with the value-laden and scientifically complex issues that arise in chemistry. Although some programs require that students take some ethics as a core requirement, for…

The interdisciplinary nature of food makes it an effective teaching vehicle in many fields. This article shows specifically how flavor and food fermentation, two topics not usually featured in the undergraduate STEM curriculum, can inspire a powerful interdisciplinary learning experience. Importantly, because of their accessible nature and…

Embedding Course-based Undergraduate Research Experiences (CUREs) into chemistry curricula has become a best practice due to the overwhelming evidence that these experiences deepen students' content comprehension, improve students' problem-solving skills, and increase retention within the major. For these reasons, faculty are often encouraged to…

Application of modern technologies, including virtual reality (VR) and eye-tracking (ET), to educational practice has been vigorously researched over the past decade with a focus on enhancing and improving school and university educational process and students' results. The main aim of this technological report is to describe an implementation of…

We have developed and implemented a change to our General Chemistry curriculum that makes the point that "not all chemists are white men." This builds on recent textbook analyses, which showed that General Chemistry textbooks overwhelmingly and unnecessarily focus on the biographies of scientists that are white men. We demonstrate a way…

The diversity of scientific methods has received widespread recognition in recent years. The purpose of this review is to analyze the changes in the representation of laboratory work in Chinese senior high school chemistry textbooks in the past 30 years from the perspective of the diversity of scientific methods. This study was based on Brandon's…

We have developed a curriculum for the organic chemistry laboratory in which students draw on authentic usage of spectroscopy, spectrometry, and computational chemistry to explain chemical phenomena. This curriculum, which has been continuously refined over a decade, has been explored by many thousands of students and is scalable to small and…