GREEN CHEMISTRY TEACHING FOR SUSTAINABILITY IN PAPERS PUBLISHED BY THE JOURNAL OF CHEMICAL EDUCATION 3 (original) (raw)
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Green Chemistry Teaching for Sustainability in Papers Published by the Journal of Chemical Education
This paper discusses 286 proposals and reports of Green Chemistry (GC) teaching experiences, in papers of the Journal of Chemical Education (JCEd) until 2019. The analysis was based on previous categories: source-problem, paper focus, subjects/area of knowledge, target groups, GC contents, type of approach and purpose(s) of the proposal. A list of possible characteristics of each category served as an example to compare with the information resulting from the analyses, and thus improve the discussions. In 127 papers, GC and its teaching were associated, albeit generally, with the theme of sustainability/sustainable development, which points to its potential to face environment-related aspects of chemistry in teaching. A systemic vision in the interconnection between GC and sustainability/sustainable development appeared more explicitly in 39 papers up to 2019. So far, the analysis highlights a certain reproduction of traditional chemistry teaching, and little evidence of the particularities of GC teaching. Despite the intention of inserting GC into chemistry teaching, proposals for its incorporation are often made superficially, more as an addendum or an extra quality than a specific goal. More methodological detail of the experiments carried out is needed to help in the dissemination of GC in the training curriculum of chemists. The discussions and reports on teaching approaches based on Systems Thinking showed the opening of a promising new methodological challenge within this theoretical paradigm.
International Journal of Environmental Research and Public Health, 2020
In this qualitative study, we aim to identify suitable pedagogical approaches to teaching and learning green chemistry among college students and preservice teachers by examining the teaching methods that have been used to promote green chemistry education (GCE) and how these methods have supported green chemistry learning (GCL). We found 45 articles published in peerreviewed scientific journals since 2000 that specifically described teaching methods for GCE. The content of the articles was analyzed based on the categories of the teaching methods used and the revised version of Bloom’s taxonomy. Among the selected articles, collaborative and interdisciplinary learning, and problem-based learning were utilized in 38 and 35 articles, respectively. These were the most frequently used teaching methods, alongside a general combination of multiple teaching methods and teacher presentations. Developing collaborative and interdisciplinary learning skills, techniques for increasing environmental awareness, problemcentered learning skills, and systems thinking skills featuring the teaching methods were seen to promote GCL in 44, 40, 34, and 29 articles, respectively. The results showed that the integration of green chemistry teaching (GCT), e.g., with sustainable education, promoted GCL by fostering environmental consciousness and behavioral change and cognitive processes in a sustainable direction.
Green Chemistry Education Subjects: Education Studies
Scholarly Community Encyclopedia, 2020
An important goal for sustainability education is to learn negotiation, problem solving and decision-making skills through discussions about ecological, social, economic, and ethical principles concerning local and global responsibility in their own life. Through memorable, experiential, and active processes, students learn to discuss their own value selection and to evaluate phenomena and sources of information critically. In this article, we aim to identify suitable pedagogical approaches to teaching and learning green chemistry among college students and preservice teachers by examining the teaching methods that have been used to promote green chemistry education (GCE) and how these methods have supported green chemistry learning (GCL).
Preface: the continuum of green chemical education
Green Chemistry Education, 2018
The theme of this introductory chapter is that green chemistry education is evolving as a continuum with many interconnecting subdisciplines. In this chapter are previewed ten articles of deep scholarly inquiry that should pique one's green interest and imagination.
Green Chemistry in Environmental Sustainability and Chemical Education
2018
The use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. The publisher, the authors and the editors are safe to assume that the advice and information in this book are believed to be true and accurate at the date of publication. Neither the publisher nor the authors or the editors give a warranty, express or implied, with respect to the material contained herein or for any errors or omissions that may have been made. The publisher remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Sustainable Chemistry
In this paper, a distinction is first made between environmental, sustainable, and green chemistry; the last two are then examined in relation to the more general problem of environmental education. A brief historical digression on the Science, Technology, and Society movement attempts to dissect reasons why chemistry is seen by the general public as a problem, not as a decisive resource for the realization of the ecological transition. Although sustainable and green chemistry can be decisive in overcoming the insularity of chemical disciplines in high school, it is not well-embedded in educational practices. This situation is slowly changing thanks to the implementations of systems thinking in teaching practice, showing interconnections between the molecular world and sustainability. Historical and epistemological studies provide an all-encompassing framework for the relationship between chemistry and the environment in a broad sense, giving a solid foundation for educational proje...
Teaching chemistry with sustainability
Multidisciplinary Journal for Education, Social and Technological Sciences
Increased awareness on a critical association between the natural environment and human development gave rise multiple projects, aiming to protect the natural environment and to preserve it for future generations. Chemists must be acquainted with the principles of green chemistry and the need to practice experimental chemistry with cleaner chemical reactions and sustainability. This is a major concern for all the educators forming new professionals within the Chemistry, Pharmacology and Biology curricula in the Faculty for Higher Studies Zaragoza from the National Autonomous University of Mexico. With this in mind, we start our teachings explaining from the very beginning, how important it is to perform microscale techniques and to follow the principles of green chemistry in the Basic Science Laboratory. Furthermore, we have modified, designed and evaluated working procedures related with chemical synthesis, kinetics and calorimetry. By doing this, we managed to greatly reduce the amount of reagents required and residues generated. Some laboratory reagents have been substituted with renewable substances. We have also included in our programme a regular treatment of residues generated during everyday laboratory work. Our goal is to emphasize the importance of minimizing the environmental impact of chemistry and to prepare environmentally concerned professionals who keep sustainability as main priority and perform chemistry procedures with good laboratory practice routines.
Incorporating Green Chemistry Concepts into the Senior Secondary School Curriculum
International Journal for Cross-Disciplinary Subjects in Education, 2013
This paper aims at incorporating the green chemistry concepts into the senior secondary or high school chemistry curriculum. Researches and training in this all important area had been targeted towards universities and industries with little or no effort at inculcating the principles of green chemistry in the younger generation who are the future of every nation. Using the Nigerian Senior Secondary Curriculum as a case study for the proposed incorporation, it was observed that several of the contents could be made to incorporate the principles of green chemistry without much overburdening. It is the opinion of the authors that this effort will yield a long term benefit of producing chemists and industrialists who would enforce greener policies and work for safer environment. This would in turn help to achieve sustainable environment devoid of prevalent environmental problems that impact negatively on earth's biocapacity.
Assessing Educational Progress in Green Chemistry: A Comprehensive Study
Isara solutions, 2021
This research paper explores the significance of green chemistry education in response to escalating environmental concerns. It aims to comprehensively assess the current state of green chemistry education, examining curricula, teaching methods, and assessment practices in educational institutions.
Integrating Sustainability into Learning in Chemistry
Journal of Chemical Education
Earth Day 2021, with the theme of "Restore Our Earth", along with Chemists Celebrate Earth Week 2021 from ACS with the theme "Reducing Our Footprint with Chemistry", provides a rich opportunity to reflect on the extent to which we integrate sustainability into chemistry education. Chemistry plays a central interdisciplinary role among all the sciences. It provides the essential key to understanding chemical processes and products operating within and among physical, biological, ecological, and engineered systems with far-reaching impacts on the health and well-being of people and our planet. Capitalizing on this pivotal role requires interchanges of knowledge among all these disciplines as well as the social sciences, humanities, and the arts, so that we can tease out the specific knowledge relevant to sustainability in the chemistry curriculum. This editorial highlights how the interdisciplinary work of integrating sustainability into chemistry education can be guided by systems thinking, and by the United Nations Sustainable Development Goals and Planetary Boundaries frameworks. Such systematic approaches can energize educators and learners to situate chemistry within a broader landscape of knowledge and thus tap chemistry's potential to enhance sustainability.