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<p>1. Introduction to Circular Economy principles for Materials.- 2.&nbsp;Materials flow, LCA, LCI, ESG – Indicators, Standards, Tools & Strategies.- 3.&nbsp;Circular Economy in Health Care: Materials and Solutions.- 4. Electronics and the Circular Economy: Design for Disassembly and Reuse.- 5. Sustainable Computing – Materials and Solutions.- 6. Circular Supply Chain Management for High-Tech Materials.- 7. Circular Economy and Corporate Social Responsibility.- 8. Case Studies - Accenture Strategy, Singapore SMEs.</p><p><br></p>

<p><strong>Professor Seeram Ramakrishna, <em>FREng,&nbsp;</em></strong><em>Everest Chair </em>is a world-renowned poly-disciplinary scholar at the National University of Singapore <em>(</em><em>https://www.linkedin.com/in/seeram-ramakrishna/</em><em>).&nbsp; </em>&nbsp;NUS is ranked among the top five best global universities for engineering in the world (<em>https://www.usnews.com/education/best-global-universities/engineering</em>).&nbsp; Thomson Reuters identified him among the World’s Most Influential Scientific Minds. &nbsp;Stanford Composite score (c-score) ranks him among the top 6 impactful researchers of the world in the categories of materials, biomedical engineering, and enabling & strategic technologies (<em>https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/4</em>). Clarivate Analytics recognized him among the Top 1% Highly Cited Researchers in the world in materials science and cross-fields categories. His publications to date received an H-index of 177&nbsp;and152,454 citations (<em>https://scholar.google.com.sg/citations?hl=en&user=a49NVmkAAAAJ&view_op=list_works&sortby=pubdate</em>). Highest professional distinctions include an elected Fellow of UK Royal Academy of Engineering (<em>FREng</em>); Singapore Academy of Engineering; Indian National Academy of Engineering; ASEAN Academy of Engineering & Technology; American Association for Advancement of Science (AAAS). &nbsp; He is also an elected Fellow of ASM International, ASME, AIMBE, USA; IMechE and IoM3, UK; ISTE, India; and International Union of Biomaterials Science & Engineering (FBSE). He received PhD from the University of</p><p>Cambridge, UK, and the GMP training from Harvard University, USA. Among numerous recognitions he received are: IIT Madras Distinguished Alumni Award; Singapore Lee Kuan Yew Fellowship; UK Cambridge Nehru Fellowship; Distinguished</p><p>Visiting Professor at the Faculty of Technology, University of Portsmouth.</p><p>Springer Nature-China New Development Award,Honorary Everest Chair of MBUST, Nepal (<em>https://mbustb.org/member_cat/honorary-chair/); </em>CUT Honorary Engineering Doctorate, South Africa; APA Distinguished Researcher Award, International Federation of Engineering Education Societies President award- Global Visionary; Global Engineering Dean's Council Ambassador; ASEAN Outstanding Engineer Award; Institute of Engineers Singapore (IES) Prestigious Engineering Achievement Award.&nbsp; He is regarded as the guru of electrospinning and nanofibers (<em>http://nart2020.com/conferenceinfo/</em><em> and </em><em>http://researchanalytics.thomsonreuters.com/m/pdfs/grr-materialscience.pdf</em>).</p><p>His academic leadership includes NUS’s Vice-President (Research Strategy); Dean of Faculty of Engineering; Director of</p><p>NUS Enterprise; Director of NUS Industry Liaison Office; Director of NUS International Relations Office; Founding Director of NUS Bioengineering; Founding Co-Director of NUS Nanoscience & Nanotechnology Institute. Asa founding Chairman he championed the establishment ~ $100 million Solar Energy Research Institute of Singapore, SERIS. He served as a board member of several national organizations, policy institutes, and tertiary education institutions.&nbsp; He received Long Service Medal- Pingat Bakti Setia during Singapore National Day Awards 2021.&nbsp; He founded the Global Engineering Deans Council (<em>http://gedcouncil.org/ambassadors</em>) while serving as the Vice-President of International Federation of Engineering Educator Societies (IFEES). He authored the book The Changing Face of Innovation.&nbsp; He is a founding member of Plastics Recycling Association of Singapore, PRAS (<em>https://www.sgc.org.sg/events/event-details/sgc-sustainability-committee-and-pras</em>), and Chairman of Plastics Recycling Center of Excellence (PRCOE).&nbsp;&nbsp; He is the Circular Economy Taskforce Chair</p><p>at NUS (<em>https://www.eventbrite.sg/e/unlocking-circular-economy-tickets-156525486945</em>). Heis a member of Extended Producer Responsibility (EPR) Advisory Committee of the Ministry of Sustainability and the Environment (MSE), Singapore.&nbsp; He Co-Chairs the Environmental, Social and Governance (ESG) Advocacy Group at the Singapore Institute of Directors (<em>www.sid.org.sg</em>).</p><p>He is a member of Enterprise Singapore’s and ISO Committee on Circular Economy.&nbsp; He Chairs the Climate Change TC</p><p>at the Institution of Engineers Singapore (IES); and a member of standards committee of Singapore Manufacturing Federation (http://www.smfederation.org.sg). He is a member of Technical Committee on Circularity of Materials at</p><p>the Singapore Council of Standards, an industry-led effort.&nbsp; He is the Editor-in-Chief of the Springer NATURE</p><p>Journal Materials Circular Economy (https://www.springer.com/journal/42824); Associate Editor-in-Chief of Elsevier Journal</p><p>Circular Economy (<em>https://www.journals.elsevier.com/circular-economy/editorial-board</em><em>); </em>and Editorial board member of RSC Energy and Environmental Science and NPJ Urban Sustainability journal<em>. </em>He is member of IITMAA Thought Leaders Council. He is an evaluation panel member for the $3 million Alliance Prize in Circular Solutions for Flexibles, sponsored by the Alliance to End Plastic Waste (<em>https://www.circularsolutions.theallianceprize.org/evaluation</em>); and Kuwait Prize in the field of emerging interdisciplinary sciences.&nbsp;&nbsp;He is an eminent resource person for universities, companies, governments, individuals, and international organizations. He is a speaker of Asian Leadership Conference</p><p>(https://alc.chosun.com/2022/speaker/speaker.html?lang=en&year=2022&pn=10#).</p><p>He co-authored a book ‘<em>Sustainability for Beginners</em>”. He is a member of World Bank Advisory Group for the India Tertiary Education (<em>https://support.qs.com/hc/en-gb/articles/4402509434386-QS-Rankings-Advisory-Board</em>).</p><p>He contributed to the UNESCO report entitled ‘Knowledge-driven Actions: Transforming Higher Education for Global</p><p>Sustainability’ (<em>https://unesdoc.unesco.org/ark:/48223/pf0000380519</em><em>; </em><em>https://www.uib.no/en/sdgbergen/141236/members-unesco-expert-group</em>)<em>.</em></p><p>His book on Circular Economy (<em>https://link.springer.com/book/10.1007/978-981-15-8510-4</em>) received 2021 Springer</p><p>Nature: China New Development Award (https://group.springernature.com/gp/group/media/press-releases/china-new-development-award-winners-announced/19657120).</p><p>European Commission&nbsp;Director-General for Environment, Excellency <em>Daniel Calleja Crespo said “Professor</em></p><p><em>Seeram Ramakrishna should be praised for his personal engagement leading the</em></p><p>reflections on how to develop&nbsp;a more sustainable future for all”.</p><p><br></p><p><strong>Brindha Ramasubramanian</strong> is a PhD student at National University of Singapore has obtained her undergraduate and a</p><p>graduate degree in Nanoscience and Technology with a Gold medal. She has authored twenty-five international publications related to electrochemical energy storage and nanomaterials. Her research interests include Life cycle</p><p>assessment of materials, Designing circularity frameworks, LCA tools, synthesis of sustainable 2D nanomaterials, fabrication of Li-ion and Li-sulfur batteries, corrosion protection, and machine learning. She has three years of industrial</p><p>exposure with Mahindra Group, Arrkay Engg works, India and Battery Associates, Ireland. She has worked on projects related to Energy analysis of EVs on different driving cycles and Optimal selection of components of EV from vehicle</p><p>simulation assessment in Mahindra Corp.&nbsp;</p>She was a team lead, assessing the retrofitting and mechanical behavior of machine dynamics in Arrkay Engg works, India. She has been the part of communications department, overseeing media communications, organizing webinars, events, research editing & proof reading in Global Engineering Futures Network, Asia. She has contributed to the SWOT analysis and trade forecasts for Sehasayee paper boards, India. She has received certification on Brand Management: Aligning Business, Brand and Behavior by London Business School. She has conducted and organized events and webinars based on material science to the institute freshers and students from various institutes across India. <p></p><p>More details: https://www.linkedin.com/in/brindharamasubramanian/ </p><p><br></p>

This book provides comprehensive and practical information on the design and implementation of circular systems for various industries, with a focus on Environmental, Social, and Governance (ESG) factors. The scope of the handbook is to cover the materials circularity in a deeper analysis in accordance to ESG used in various industries such as oil and gas, IT, electronics, medicine, textile, and more. The handbook also covers the key principles of the circular economy, including material efficiency, resource conservation, and waste reduction, and how they impact to different industries. It further critically analyses the challenges and opportunities associated with implementing circular systems in these industries, including the framework for new business models and technical innovations, and the potential benefits in terms of environmental protection, social responsibility, and economic competitiveness.<div>&nbsp;<br>In addition to providing practical information, the handbook also addresses the ESG factors associated with the circular economy exclusively for each industry. This would include the impact of circular systems on the environment, including the reduction of greenhouse gas emissions and the protection of biodiversity, as well as the social benefits, such as job creation, and the economic benefits, such as cost savings and increased competitiveness.<p></p>&nbsp;The ultimate goal of the handbook should be to provide guidance and support in a niche evaluation for the development of a more sustainable and equitable future, where the circular economy is a key enabler.<div><p></p></div></div>

The handbook provides practical and technical information on how to design and implement circular systems Includes case studies, best practices, and guidance on how to implement circular systems in different industries Comprehensive coverage provides a one-stop-shop circular economy solutions for students, experts, and practitioners