TY - JOUR A1 - Lee, Roh Pin A1 - Reb, Jochen T1 - “Waste-to-Products” for the sustainability transformation of megacities : case analysis of impacts of public knowledge and perception on chemical recycling deployment in Singapore JF - Cleaner Waste Systems N2 - Megacities generate significant amounts of unsorted domestic waste. Rather than being landfilled/incinerated, this could be used to substitute fossil resources for chemical production via chemical recycling (CR). CR thus represents an opportunity for a parallel achievement of multiple sustainability goals from resource efficiency, decarbonization to circularity and sustainable waste management. However, as an emerging technology, its potential contributions to a nation’s sustainability transformation remain debated. While extant literature in the fields of waste management and CR have predominantly focused on waste sorting/segregation/collection as well as techno-economical-ecological feasibility of CR technologies respectively, insights into human factors which could hinder CR deployment in the forms of pyrolysis and gasification for the sustainable waste management in megacities remain lacking. To address this gap, this study implemented a representative online survey in Singapore – a megacity in Southeast Asia aiming to transit towards circularity and zero-waste by 2030 – and enabled first and novel insights into factors in the human dimension which would (1) influence proper waste separation/recycling behaviors – a prerequisite for the successful implementation of waste pyrolysis, and (2) impact societal support for using domestic waste for chemical production via waste gasification rather than for energy production via waste incineration – the dominant waste management approach in Singapore. Study insights regarding the impacts of the human factor and the identified opportunities for CR integration in a nation’s waste system – besides extending extant waste management and CR literature – furthermore act as a blueprint for sustainable waste management and green chemistry for the sustainability transformation of other megacities. KW - Chemical recycling KW - Waste pyrolysis KW - Waste gasification KW - Domestic waste KW - Perception Y1 - 2025 U6 - https://doi.org/10.1016/j.clwas.2025.100359 SN - 2772-9125 VL - 12 PB - Elsevier CY - Amsterdam ER -