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…

Higher education is faced with the challenging problem of preparing students for their careers while developing them to be well-rounded, life-long learners. Employers report they desire candidates who use a broader set of skills and have higher levels of learning and knowledge to meet the increasingly complex demands of today's workplace. At…

This study reported the application of an interactive Open Education Resource, namely, an open virtual experiment simulator education tool (OVESET), in teaching the kinetics of atom transfer radical polymerization (ATRP) in a polymer science classroom. The OVESET ATRP kinetic simulator aims at improving students' inductive reasoning skills.…

Green chemistry and chemical safety complement each other in reducing adverse health and safety outcomes. However, it is imperative to train students of advanced synthetic chemistry, beyond reaction mechanisms, to proactively connect complex experiments with hazard analysis, risk minimization, and planetary sustainability. Virtual experiments…

The paper describes guidelines for the planning, organization, and implementation of virtual activities within a metaverse environment, aiming to familiarize students with key concepts related to hard and soft acids and bases (HSAB) theory. The guidelines are based on experience gained during an online lesson given in January of 2022 for 188…

Chemistry students are passionate about using their learning to contribute toward a sustainable future, yet they feel unprepared to make green and sustainable practical decisions informed by industry-relevant tools. Most green chemistry metrics are mass-based, which do not estimate environmental impact or help address global socioeconomic…

Course-based undergraduate research experiences (CUREs) are being increasingly implemented to broaden the opportunities for undergraduate students to engage in authentic research across STEM disciplines including chemistry. The present review synthesizes the literature on chemistry CUREs, encompassing 68 articles published between 2016 and 2022…

The COVID-19 pandemic of Spring 2020 saw chemistry instructors across the globe working to deliver traditional hands-on laboratory learning within a remote learning environment. This study focused on the student perspective on remote laboratory delivery models across 13 Fall 2020 chemistry courses with students from all four years of undergraduate…

We introduced a microfluidic paper-based analytical device ([mu]PAD) to undergraduates majoring in nutrition education using a modified acid-base titration on paper microzones. After designing experiments for sample analysis using micro acid-base titration, students fabricated the devices and implement the experiment as designed. Then they…

Traditional laboratory courses involve students following detailed weekly experimental procedures, culminating in either a laboratory report or handout at the end of each experiment. While this setup teaches basic laboratory skills, it usually does not encourage students to think critically or independently. Therefore, many laboratory instructors…

Curriculum-embedded undergraduate research experiences (CUREs) have the unique advantage that "all" students enrolled in a course engage in authentic scientific research. While CUREs guided by faculty research interests are common, this article describes CUREs embedded in the senior chemistry curriculum that were driven entirely by…

The purpose of this paper is to discuss ways that a chemistry course could reposition itself by adopting interdisciplinary approaches based on systems thinking and the Sustainable Development Goals (SDGs) as overarching frameworks, to give an overview of several challenges that chemistry in higher education is facing, and to discuss how those can…

Data-handling, processing, and analysis skills are an integral part of a chemist's skill set and, more generally, are highly sought by employers. We report a self-directed workshop to develop and advance these key skills using the popular spreadsheet program Microsoft Excel. Making use of its accessible user interface, various contextualized…

Despite the recognized effectiveness of course-based undergraduate research experiences (CUREs), there are few examples of the development of a CURE-based course in a large-enrollment undergraduate organic chemistry laboratory. Herein, we describe the development and implementation of a series of undergraduate laboratory experiments centered…