Industrial Decarbonization:
                                The Role Of Material Efficiency Strategies

               Hertwich, E. G., Ali, S., Ciacci, L., Fishman, T., Heeren, N., Masanet, E., ... and
               Wolfram, P. (2019). “Material Efficiency Strategies to Reducing Greenhouse Gas
               Emissions  Associated  with  Buildings,  Vehicles,  and  Electronics—A  Review”.
               Environmental Research Letters, 14(4), 043004.

               Ho, F. H., Abdul-Rashid, S. H., Raja Ghazilla, R. A., and Woo, Y. L. (2019). “Resources
               Sustainability through Material Efficiency Strategies: An Insight Study of Electrical
               And Electronic Companies”. Resources, 8(2), 117.

               Ho, F. H., Abdul-Rashid, S. H., Raja Ghazilla, R. A., Sakundarini, N., Woo, Y. L.,
               Ahmad, S., Ghazali, I., and Abdul Haq, R. H. (2021). “What Key Drivers Are Needed
               to  Implement  Material  Efficiency  Strategies?  An  Analysis  of  the  Electrical  and
               Electronic Industry in Malaysia and Its Implications to Practitioners”. Sustainability,
               13(4), 2065.

               Horton,  P.  M.,  and  Allwood,  J.  M.  (2017).  “Yield  Improvement  Opportunities
               for  Manufacturing  Automotive  Sheet  Metal  Components”.  Journal of Materials
               Processing Technology, 249: 78-88.

               Howard, T. J., Culley, S. J., and Dekoninck, E. (2008). “Describing the Creative
               Design Process by the Integration of Engineering Design and Cognitive Psychology
               Literature”. Design Studies, 29(2): 160-180.


               IEA  (International  Energy  Agency),  (2019).  Material  Efficiency  in  Clean  Energy
               Transitions.   IEA,   Paris   https://www.iea.org/reports/material-efficiency-in-
               cleanenergy-transitions.

               IEA  (International  Energy  Agency),  (2020a).  Energy  Efficiency  2020.  https://doi.
               org/10.1787/dfd85134-en, (Accessed on 18.04.2022).

               IEA  (International  Energy  Agency),  (2020b).  Energy  Technology  Perspectives
               2020.  https://www.iea.org/reports/energy-technology-perspectives-2020,  (Erişim
               tarihi:18.04.2022).

               IEA  (International  Energy  Agency),  (2021a).  Greenhouse Gas Emissions from
               Energy: Overview.  https://www.iea.org/reports/greenhouse-gas-emissions-from-
               energyoverview, (Accessed on18.04.2022).


               IEA (International Energy Agency), (2021b). World Energy Model Documentation.
               https://www.iea.org/reports/world-energy-model, (Accessed on 18.04.2022).

               IEA (International Energy Agency), (2021c). Tracking Industry 2021. https://www.
               iea. org/reports/tracking-industry-2021, (Accessed on 18.04.2022).


                                                                  Year 1 / Issue 2 / July 2022  112