October_2021_AMP_Digital

A D V A N C E D M A T E R I A L S & P R O C E S S E S | O C T O B E R 2 0 2 1 3 1 For more information: Sudipta Seal, professor, department of materials sci- ence and engineering, Advanced Ma- terials Processing and Analysis Center, Nanoscience Technology Center, and the College of Medicine at the Uni- versity of Central Florida, 12424 Re- search Pkwy., #400, Orlando, FL 32826, 407.882.1578, sudipta.seal@ucf.edu . References 1. Y.M. Wei, et al., Self-preservation Strategy for Approaching Global Warm- ing Targets in the Post-Paris Agreement Era, Nature Communications, 2020, 11(1), p 1624. 2. https://www.nsf.gov/awardsearch/ s howAwa r d ? AWD_ I D= 1 9 2 9 8 9 9& Hi storicalAwards=false. 3. S. Seal, R. Patil, and S. Rama- krishna, Towards Circular and Sustain- able Cities, 2019, available from https://www.tabla.com.sg/jr/jrpc.php? param=2019-10-03&page=2. 4. P. Peck, et al., Circular Economy- Sustainable Materials Management: A Compendium by the International Institute for Industrial Environmental Economics (IIIEE) at Lund University, 2019. 5. Circular Economy Would Increase European Competitiveness and Deliver BetterSocietalOutcomes,NewStudyRe- veals, 2015, available from https://www. ellenmacarthurfoundation.org/news/ ci rcular-economy-would- increase -european-compet i t i veness -and- del iver-better-societal -outcomes- new-study-reveals. 6. B. Mishra, Sub-micron Materials Recovery from Mineral Processing Wastes – A Pathway Towards Sustain- able Circular Economy, talk 15, available from http://mse.ucf.edu/nanobiomate- rials/wp-content/uploads/2021/09/CE- Program-Schedule-and-Abstrat-book. pdf. 7. T. Collins, The New Field of Sus- tainable Ultradilute Oxidation Catal- ysis (SUDOC): Integrating Health, Envi- ronmental and Fairness Performances with Technical and Cost Performances for Transformative Sustainable Water Purification, talk 2, available from http://mse.ucf.edu/nanobiomaterials/ wp-content /uploads/2021/09/CE- Program-Schedule-and-Abstrat-book. pdf. 8. A.A. White, Mainstreaming Sustain- ability and the Circular Economy among Materials Researchers, talk 6, http://mse.ucf.edu/nanobiomaterials/ wp-content /uploads/2021/09/CE- Program-Schedule-and-Abstrat-book. pdf. 9. P. Kerdlap, A Multi-level Model for Life Cycle Environmental Evaluation of Industrial Symbiosis, available from http://mse.ucf.edu/nanobiomaterials/ wp-content /uploads/2021/09/CE- Program-Schedule-and-Abstrat-book. pdf. 10. http://mse.ucf.edu/nanobiomate- rials/wp-content/uploads/2021/09/CE- Program-Schedule-and-Abstrat-book. pdf. 11. D. Tan, Life Cycle Assessment of Singapore Food System, talk 13, avail- able from http://mse.ucf.edu/nano- biomaterials/wp-content/uploads/ 2021/09/CE-Program-Schedule-and- Abstrat-book.pdf. 12. 2019 Circular Economy Conference PanelDiscussion, https://www.youtube . com/watch?v=YPSxl903W6w&list=LL WAHC5V00Jz7rSaNmcSqTqA&index= 7&t=0s. 13. I. Salama, Semiconductor Micro- electronics Technology Scaling: Sus- tainability and Environmental Consid- eration, talk 8, http://mse.ucf.edu/na- nobiomaterials/wp-content/uploads/ 2021/09/CE-Program-Schedule-and- Abstrat-book.pdf. 14. S. Seal, R. Patil, and S. Ramakrishna, Circular Economy, Sustainability and Business Opportunities, The European Business Review, January 22, 2020, https://www.europeanbusinessreview. com/circular-economy-sustainabili- ty-and-business-opportunities/. 15. L. Liu and S. Ramakrishna, An Introduction to Circular Economy , 2020, p 600.