Carbon and H2 recoveries from plastic waste by using a metal-free porous biocarbon catalyst
暂无分享,去创建一个
P. Jönsson | Ritambhara Gond | Ziyi Shi | Shuowu Guo | Hanmin Yang | Ya Jin | T. Han | Weihong Yang | W. Yang
[1] P. Jönsson,et al. High-purity syngas production by cascaded catalytic reforming of biomass pyrolysis vapors , 2022, Applied Energy.
[2] N. Iqbal,et al. Conversion of Plastic Waste to Carbon-Based Compounds and Application in Energy Storage Devices , 2022, ACS omega.
[3] Chang Liu,et al. Bulk growth and separation of single-walled carbon nanotubes from rhenium catalyst , 2022, Nano Research.
[4] Andrei Veksha,et al. Converting polyolefin plastics into few-walled carbon nanotubes via a tandem catalytic process: Importance of gas composition and system configuration. , 2022, Journal of hazardous materials.
[5] K. Wu,et al. Thermochemical conversion of plastic waste into fuels, chemicals, and value-added materials: A critical review and outlooks. , 2022, ChemSusChem.
[6] Chuanping Feng,et al. Treatment of nitrate containing wastewater by adsorption process using polypyrrole-modified plastic-carbon: Characteristic and mechanism. , 2022, Chemosphere.
[7] Haesung Jung,et al. Classical and Nonclassical Nucleation and Growth Mechanisms for Nanoparticle Formation. , 2022, Annual review of physical chemistry.
[8] J. Manyà,et al. Plant-derived hard carbon as anode for sodium-ion batteries: A comprehensive review to guide interdisciplinary research , 2022, Chemical Engineering Journal.
[9] I. Dincer,et al. A review on hydrogen production and utilization: Challenges and opportunities , 2021, International Journal of Hydrogen Energy.
[10] S. Chou,et al. Soft-Carbon-Coated, Free-Standing, Low-Defect, Hard-Carbon Anode To Achieve a 94% Initial Coulombic Efficiency for Sodium-Ion Batteries. , 2021, ACS applied materials & interfaces.
[11] B. Behera. Challenges in handling COVID-19 waste and its management mechanism: A Review , 2021, Environmental Nanotechnology, Monitoring & Management.
[12] Amra Bratovčić. Available Recycling Solutions for Increased Personal Protective Equipment in the Environment Due to the COVID-19 Pandemic , 2021, Aswan University Journal of Environmental Studies.
[13] Yongzhen Wang,et al. The use of in-situ Raman spectroscopy in investigating carbon materials as anodes of alkali metal-ion batteries , 2021 .
[14] T. Palanisami,et al. COVID pollution: impact of COVID-19 pandemic on global plastic waste footprint , 2021, Heliyon.
[15] Shanfu Lu,et al. Carbon Anode Materials: A Detailed Comparison between Na‐ion and K‐ion Batteries , 2021, Advanced Energy Materials.
[16] J. Steenkamp,et al. A review of carbon-based refractory materials and their applications , 2020 .
[17] S. Nanda,et al. Thermochemical conversion of plastic waste to fuels: a review , 2020, Environmental Chemistry Letters.
[18] R. Ruan,et al. Application of highly stable biochar catalysts for efficient pyrolysis of plastics: a readily accessible potential solution to a global waste crisis , 2020 .
[19] I. Deviatkin,et al. Pyrolysis of plastic waste: Opportunities and challenges , 2020, Journal of Analytical and Applied Pyrolysis.
[20] A. Giannis,et al. Processing of flexible plastic packaging waste into pyrolysis oil and multi-walled carbon nanotubes for electrocatalytic oxygen reduction. , 2019, Journal of hazardous materials.
[21] D. Dong,et al. Nanofibers and amorphous Ni/Al2O3 catalysts — effect of steric hindrance on hydrogenation performance , 2019, Catalysis Science & Technology.
[22] G. Lopez,et al. Catalyst Performance in the HDPE Pyrolysis-Reforming under Reaction-Regeneration Cycles , 2019, Catalysts.
[23] Tao Zhang,et al. Synthetic strategies of two-dimensional porous materials towards highly effective catalysts , 2019, FlatChem.
[24] S. Al-Salem. Energy Production From Plastic Solid Waste (PSW) , 2019, Plastics to Energy.
[25] Tadeusz Pustelny,et al. Characterization of Graphite Oxide and Reduced Graphene Oxide Obtained from Different Graphite Precursors and Oxidized by Different Methods Using Raman Spectroscopy , 2018, Materials.
[26] T. Yoshioka,et al. Pyrolysis gases produced from individual and mixed PE, PP, PS, PVC, and PET—Part I: Production and physical properties , 2018, Fuel.
[27] Mehdi Shahedi Asl,et al. Effects of carbon additives on the properties of ZrB2–based composites: A review , 2018 .
[28] N. Ngadi,et al. Recent advances in applications of activated carbon from biowaste for wastewater treatment: a short review. , 2018 .
[29] G. Lopez,et al. Recent advances in the gasification of waste plastics. A critical overview , 2018 .
[30] Ahmed M. Haggar,et al. Simple method for synthesis of carbon nanotubes over Ni-Mo/Al2O3 catalyst via pyrolysis of polyethylene waste using a two-stage process , 2017 .
[31] J. Dai,et al. A High‐Performance, Low‐Tortuosity Wood‐Carbon Monolith Reactor , 2017, Advanced materials.
[32] Peng Bai,et al. Understanding Diffusion in Hierarchical Zeolites with House-of-Cards Nanosheets. , 2016, ACS nano.
[33] J. V. van Bokhoven,et al. Catalytic Fast Pyrolysis of Lignin over High-Surface-Area Mesoporous Aluminosilicates: Effect of Porosity and Acidity. , 2016, ChemSusChem.
[34] Guo-hua Yang,et al. Experimental study on catalytic cracking of model tar compounds in a dual layer granular bed filter , 2016 .
[35] F. Abnisa,et al. A review on pyrolysis of plastic wastes , 2016 .
[36] R. Luque,et al. Recent development of carbon electrode materials and their bioanalytical and environmental applications. , 2016, Chemical Society reviews.
[37] T. Fuller,et al. Hierarchically Structured Nanomaterials for Electrochemical Energy Conversion. , 2016, Angewandte Chemie.
[38] H. Moon,et al. The Current Status of Strong Acids Production, Consumption, and Spill Cases in Korea , 2014 .
[39] Dhanapati Deka,et al. Review on latest developments in biodiesel production using carbon-based catalysts , 2014 .
[40] G. Tompsett,et al. Investigation into the shape selectivity of zeolite catalysts for biomass conversion , 2011 .
[41] J. Bhatti,et al. ENERGY AND ECONOMIC VALUE OF NON- RECYCLED PLASTICS (NRP) AND MUNICIPAL SOLID WASTES (MSW) THAT ARE CURRENTLY LANDFILLED IN THE FIFTY STATES , 2011 .
[42] Paul T. Williams,et al. Pyrolysis–gasification of plastics, mixed plastics and real-world plastic waste with and without Ni–Mg–Al catalyst , 2010 .
[43] G. Nagarajan,et al. Performance, emission and combustion characteristics of a DI diesel engine using waste plastic oil , 2009 .
[44] A. Ferrari,et al. Raman spectroscopy of graphene and graphite: Disorder, electron phonon coupling, doping and nonadiabatic effects , 2007 .
[45] H. Lee,et al. Effect of carbon coating on electrochemical performance of hard carbons as anode materials for lithium-ion batteries , 2007 .
[46] M. Wissler,et al. Graphite and carbon powders for electrochemical applications , 2006 .
[47] A. Bridgwater,et al. An overview of fast pyrolysis of biomass , 1999 .
[48] George W. Smith. A simple nucleation/depletion model for the spherule size of particulate carbon , 1982 .