Event-related potentials for investigating the willingness to recycle household medical waste

• Published in: Heliyon Vol. 9; no. 10; p. e20722
• Main Authors: Xu, Bin-Xiu, Ding, Yi, Bilal, Muhammad, Wang, Mia Y.
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.10.2023; Elsevier
• Subjects: Event-related potentials; Household medical waste; Recycling decision; Recycling decision; Household medical waste; Event-related potentials
• ISSN: 2405-8440; 2405-8440
• DOI: 10.1016/j.heliyon.2023.e20722

Household medical waste (HMW) recycling in the reverse supply chain has become a primary channel for infectious, toxic, or radioactive substances for environmental protection and a circular economy. Recycling managers need to understand the recycling decision-making mechanisms of households to improve the intention-behavior gap and recycling participation rate, especially in cognitive neuroscience. This study designed an event-related potential (ERPs) experiment to explore the differences in ERPs components between the willingness and unwillingness to make recycling decisions. Our findings confirmed that willingness and unwillingness to recycle can lead to a significant difference in the P300 and N400 scores. A larger P300 was evoked by willingness rather than unwillingness in the prefrontal, frontal, and frontal-temporal regions. This indicates that willingness to recycle results from a rational choice in the decision-making process. However, a larger N400 was evoked by unwillingness rather than willingness in the parietal, parietal-occipital, and occipital regions. A negative wave was evoked in households unwilling to recycle because they thought it was dangerous and unsanitary, causing a higher conflict with intrinsic cognition. The combination of HMW recycling decisions and neurology may accurately measure pro-environmental decision-making processes through brain science. Advancing the knowledge of psychological and brain mechanism activities for understanding pro-environmental choices. In turn, this can help recycling managers to accurately understand household demands for increasing the recycling intention and designing effective HMW take-back systems to solve the intention-behavior gap related to the global recycling dilemma.