TY - JOUR
T1 - Expanding Evaporation Rate Model Determination of Hand-Rub Sanitizers to the General Freshman and Engineering Chemistry Undergraduate Laboratory
T2 - Inquiry-Based Formulations, Viscosity Measurements, and Qualitative Biological Evaluations
AU - Felton, Daniel E.
AU - Moberly, James G.
AU - Ederer, Martina M.
AU - Hartzell, Patricia L.
AU - Waynant, Kristopher V.
N1 - Publisher Copyright:
© 2018 American Chemical Society and Division of Chemical Education, Inc.
PY - 2018/7/10
Y1 - 2018/7/10
N2 - Additions to the popular evaporation rate determination laboratory of alcohol-based hand-rub sanitizers are described here. Significantly, inquiry-driven protocols for formulating hand-rub sanitizers, falling-ball viscometry, and sanitizer efficacy are included. Incorporation of familiar substances ("molecular relevance") enables students to assimilate knowledge and connect to and recognize interrelated disciplines. To stimulate engagement and project ownership, students were given the opportunity to alter sanitizer formulations by varying the amount and molecular weight of the gelling agent. Viscosities were determined using a falling-ball viscometer to integrate physics and fluid dynamics concepts into these experiments. Lastly, to stress microbiological applications and determine the efficacy of their hand sanitizers, students tested the formulated hand sanitizers for qualitative efficacy using agar plating of skin secretions and comparing colonies formed from sanitized versus nonsanitized hands. Chemistry students with diverse interests recognized links across disciplinary boundaries (e.g., increased their awareness of physical properties of hand sanitizers and the relationship of molecular-scale phenomena to these properties). This three-hour laboratory provides an interdisciplinary supplement directly designed for freshman chemistry and engineering chemistry undergraduates and increases integration among biology, chemistry, engineering, and physics.
AB - Additions to the popular evaporation rate determination laboratory of alcohol-based hand-rub sanitizers are described here. Significantly, inquiry-driven protocols for formulating hand-rub sanitizers, falling-ball viscometry, and sanitizer efficacy are included. Incorporation of familiar substances ("molecular relevance") enables students to assimilate knowledge and connect to and recognize interrelated disciplines. To stimulate engagement and project ownership, students were given the opportunity to alter sanitizer formulations by varying the amount and molecular weight of the gelling agent. Viscosities were determined using a falling-ball viscometer to integrate physics and fluid dynamics concepts into these experiments. Lastly, to stress microbiological applications and determine the efficacy of their hand sanitizers, students tested the formulated hand sanitizers for qualitative efficacy using agar plating of skin secretions and comparing colonies formed from sanitized versus nonsanitized hands. Chemistry students with diverse interests recognized links across disciplinary boundaries (e.g., increased their awareness of physical properties of hand sanitizers and the relationship of molecular-scale phenomena to these properties). This three-hour laboratory provides an interdisciplinary supplement directly designed for freshman chemistry and engineering chemistry undergraduates and increases integration among biology, chemistry, engineering, and physics.
KW - First Year Undergraduate/General
KW - Industrial Chemistry
KW - Inquiry-Based/Discovery Learning
KW - Interdisciplinary/Multidisciplinary
KW - Polymer Chemistry
KW - Rate Law
UR - http://www.scopus.com/inward/record.url?scp=85049742801&partnerID=8YFLogxK
U2 - 10.1021/acs.jchemed.7b00969
DO - 10.1021/acs.jchemed.7b00969
M3 - Article
AN - SCOPUS:85049742801
SN - 0021-9584
VL - 95
SP - 1226
EP - 1229
JO - Journal of Chemical Education
JF - Journal of Chemical Education
IS - 7
ER -