Research Experiences via Integrating Simulations and Experiments (REVISE): A Model Collaborative Research Project for Undergraduate Students in CO 2 Sorbent Design.
Anthony GriffinNeziah SmithMark RobertsonBianca NunezJacob McCrawHaoyuan ChenZhe QiangPublished in: Journal of chemical education (2024)
Undergraduate research experiences are an instrumental component of student development, increasing conceptual understanding, promoting inquiry-based learning, and guiding potential career aspirations. Moving one step further, as research continues to become more interdisciplinary, there exists potential to accelerate student growth by granting additional perspectives through collaborative research. This study demonstrates the utilization of a model collaborative research project, specifically investigating the development of sorbent technologies for efficient CO 2 capture, which is an important research area for improving environmental sustainability. A model CO 2 sorbent system of heteroatom-doped porous carbon is utilized to enable students to gain knowledge of adsorption processes, through combined experimental and computational investigations and learnings. A particular emphasis is placed on creating interdisciplinary learning experiences, exemplified by using density functional theory (DFT) to understand molecular interactions between doped carbon surfaces and CO 2 molecules as well as explain underlying physical mechanisms that govern experimental results. The experimental observations about CO 2 sorption performance of doped ordered mesoporous carbons (OMCs) can be correlated with simulation results, which can explain how the presence of heteroatom functional groups impact the ability of porous carbon to selectively adsorb CO 2 molecules. Through an inquiry-focused approach, students were observed to couple interdisciplinary results to construct holistic explanations, while developing skills in independent research and scientific communications. This collaborative research project allows students to obtain a deeper understanding of sustainability challenges, cultivate confidence in independent research, prepare for future career paths, and most importantly, be exposed to strategies employing interdisciplinary research approaches to address scientific challenges.
Keyphrases
- metal organic framework
- quality improvement
- high school
- medical students
- density functional theory
- mental health
- highly efficient
- quantum dots
- medical education
- molecular dynamics
- solid phase extraction
- healthcare
- human health
- molecularly imprinted
- visible light
- risk assessment
- escherichia coli
- molecular dynamics simulations
- pseudomonas aeruginosa
- heavy metals
- tissue engineering
- liquid chromatography
- mass spectrometry