Circular plastic economy for sustainable development: current advances and future perspectives

Muhammad Anwar, Maria E. Konnova and Sarim Dastgir

RSC Sustainability, 2025,3, 3724-3840

From themed collection: RSC Sustainability Recent Review Articles

Abstract

This review highlights advanced catalytic processes that hold industrial relevance for transforming plastic waste into sustainable fuels, chemical feedstock and advance materials, thereby facilitating chemical circular economy. Image partially generated using iStock AI Image Generator.

Dual advantages of rapid zeolite channel diffusion and Ni sites: 1Ni/L-DAl zeolite enables efficient polyolefin hydrocracking to liquid fuel

Hongyu Fu, Huibin Liu, Abulikemu Abulizi, Kenji Okitsu, Yasuaki Maeda, Tiezhen Ren, Aisha Nulahong and Changhai Liang

Green Chem., 2026, Advance Article

Abstract

Hydrocracking-based upgrading and recycling of polyolefins into high-quality liquid fuels are excellent methods for reducing solid-waste pollution.

Boosting engineering strategies for plastic hydrocracking applications: a machine learning-based multi-objective optimization framework

Zhe Ma, Zhibo Zhang, Changyuan Wang, Jianlin Cao, Yibin Liu, Hao Yan, Xin Zhou, Xiang Feng and De Chen

Green Chem., 2025,27, 1169-1182

Abstract

A novel waste plastic pyrolysis oil hydrocracking process uniquely integrating process simulation with advanced deep learning models for multi-objective optimization.

Dominant role of zeolite in coordination between metal and acid sites on an industrial catalyst for tetralin hydrocracking

Jiayao Qi, Hanqiong Jia, Fei Wang, Hang Gao, Bo Qin, Xinwei Zhang, Jinghong Ma, Yanze Du and Ruifeng Li

React. Chem. Eng., 2024,9, 940-949

Abstract

An effective approach for upgrading light cycle oil (LCO) is the targeted conversion of poly-aromatic hydrocarbons to valuable monoaromatic hydrocarbons.

Catalytic hydroconversion processes for upcycling plastic waste to fuels and chemicals

Junde Wei, Jieyi Liu, Weihao Zeng, Zichen Dong, Jingkuo Song, Sibao Liu and Guozhu Liu

Catal. Sci. Technol., 2023,13, 1258-1280

From themed collection: Catalysis Science & Technology Most Popular 2023 Articles

Abstract

This review provides an overview of catalytic hydroconversion processes including hydrocracking, hydrogenolysis and hydrodeoxygenation for upcycling of plastic wastes into fuels and valuable chemicals.