In today’s educational landscape, chemistry is often met with trepidation and disengagement among students. This widespread aversion, known academically as chemophobia, paints the discipline as overly complex, hazardous, and disconnected from everyday life. Such perceptions drastically dampen interest and motivation, steering many pupils away from pursuing further studies or careers in chemistry. However, a groundbreaking study from researchers at the University of São Paulo is challenging this narrative by illuminating how non-formal education spaces, particularly interactive science museum exhibits, can transform students’ attitudes and foster deeper engagement with chemistry.
At the core of this study is the innovative use of an interactive exhibition focused on advanced oxidation processes (AOPs)—chemical techniques crucial for the degradation of persistent organic pollutants. These methods, which include electrochemical reactions and radical-based oxidations, are not only scientifically significant but also environmentally pivotal, as they convert harmful substances like dyes, pharmaceuticals, and personal care product residues into less toxic forms. This exhibition, based on real university research, invited students to engage hands-on with physical models and visual displays, providing a tangible context far removed from typical textbook abstractions.
The researchers, Ariane Carolina da Rocha, Ana Carolina Steola, and Ana Cláudia Kasseboehmer, designed their approach around the Self-Determination Theory (SDT) of motivation proposed by Edward Deci and Richard Ryan. SDT posits that true motivation flourishes when basic psychological needs—autonomy, competence, and relatedness—are satisfied. By applying SDT to non-formal educational settings, the team sought not only to assess what the students learned but how they emotionally connected with chemistry through the museum experience. Their aim was to ascertain if this connection could counteract chemophobia by enhancing motivation and engagement.
The study was conducted across six public high schools located in the marginalized neighborhoods of São Carlos, Brazil. This deliberate selection broadened access to informal science education for students who traditionally have limited opportunities for enrichment activities outside the standard curriculum. The outreach to socioeconomically diverse populations underscores the inclusive potential of science communication efforts and non-formal learning environments to democratize scientific literacy.
During the exhibition visits, over 250 students interacted directly with the interactive models illustrating AOPs. Through guided exploration of electrochemical principles—where electric currents induce oxidation reactions—and discussions on radical-mediated degradation pathways, complex chemical phenomena were demystified. This immersive environment connected theoretical knowledge with visually and physically engaging components, stimulating curiosity and critical thinking.
Analysis of the collected data revealed a clear trend: students exhibited increased interest in chemistry after participating in the exhibition. The tactile, participatory format boosted their perception of competence, as they could observe and manipulate chemical concepts firsthand. Furthermore, sense of autonomy was nurtured by allowing students to explore at their own pace and express curiosity through informal dialogue with facilitators. Feeling supported by peers and educators during the visit cultivated relatedness, completing the motivational triad emphasized by SDT.
Beyond immediate engagement, the study demonstrated that such non-formal experiences have enduring effects on students’ attitudes toward chemistry. By replacing abstract symbols and formulas with accessible, real-world applications and encouraging active involvement, the exhibition worked against entrenched negative stereotypes about the discipline’s difficulty and danger. This shift in perception, according to the authors, highlights how instructional design and contextual environment can significantly influence learners’ emotional responses and cognitive accessibility to scientific subjects.
Importantly, the findings suggest that chemophobia is not inevitable nor an intrinsic consequence of chemistry itself, but rather a byproduct of traditional, content-heavy pedagogies that lack interaction and relevance. The integration of informal educational tools in mainstream teaching should be considered a vital component in curriculum design, serving as a complementary pathway to invigorate student motivation and build confidence in science.
This study contributes significant evidence supporting the role of informal education spaces—especially museums equipped with interactive exhibits—in bridging the gap between abstract chemistry and tangible human experiences. The authors call for educational policymakers and institutions to recognize the value of these environments to create inclusive, engaging, and motivating learning experiences that can reach a broad demographic of students, particularly those from underserved backgrounds.
By harnessing the power of interactive science communication and honoring the psychological underpinnings of motivation, chemistry education can transcend its negative reputation and become a discipline that inspires fascination, nurtures curiosity, and fosters future scientific literacy. These insights provoke a reevaluation of how chemistry is presented to learners and emphasize the urgent need for innovation in the methods used to teach and engage with this crucial science.
Ultimately, this research offers a hopeful vision: through thoughtfully designed, non-formal education strategies that respect human psychological needs, students can develop a more positive relationship with chemistry. Encouraging greater autonomy, competence, and connectedness in learning environments promises to reduce chemophobia and ignite passion for chemistry among younger generations, laying the foundation for a scientifically informed and environmentally conscious society.
Subject of Research: People
Article Title: Exploring Chemistry: the impact of an interactive model on student motivation in non-formal education spaces
News Publication Date: 11-Feb-2026
Web References: http://dx.doi.org/10.22323/167120260102161441
Image Credits: da Rocha et al
Keywords:
– Chemistry
– Science communication
– Education
– Museums
– Informal education
Tags: advanced oxidation processes in chemistrychemistry education challengesengaging students in chemistryfostering interest in STEM fieldshands-on learning in chemistryinteractive science museum exhibitsnon-formal education in scienceovercoming chemophobia in studentspromoting environmental awareness through chemistryreal-world applications of chemistryself-determination theory in educationtransforming attitudes towards chemistry
