Application of NaOH modified micro-polyethylene as storage material for H2 DOI Creative Commons
Tawanda Matamba, Hussein Rasool Abid, Masoumeh Zargar

et al.

Journal of Energy Storage, Journal Year: 2024, Volume and Issue: 87, P. 111563 - 111563

Published: April 4, 2024

H2 is increasingly regarded as a decarbonized solution for the increasing energy demand. However, due to its low density, cannot be easily compressed, and there need materials that can store large amounts of H2. Here we tested adsorption capacity micro-polyethylene (MicroPE) – significant environmental pollutant - at 1–70 bar 30 °C. increased with pressure (from 0.06 mol/kg 17.21 0.20 68.11 raw MicroPE). MicroPE activated aqueous NaOH significantly changed under same operating conditions. 0.50 when was treated 0.002 mol/L NaOH. We conclude feasible material H2, competitive other storage in terms availability, cost-effective, pollution mitigation slightly higher rates condition studied. This work provides fundamental information, thus aids reduction microplastic pollution, while further enabling green transition.

Language: Английский

Understanding microplastic pollution: Tracing the footprints and eco-friendly solutions DOI
Shashi Kant Bhatia, Gopalakrishnan Kumar, Yung‐Hun Yang

et al.

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 914, P. 169926 - 169926

Published: Jan. 8, 2024

Language: Английский

Citations

21
Insights into the enhanced oxidation of organic micropollutants by single-atom Cu catalyst activated peroxydisulfate: Valence-dominated nonradical pathway DOI
Jingwen Pan, Xinyuan Wang,

Xinyu Yang

et al.

Applied Catalysis B Environment and Energy, Journal Year: 2024, Volume and Issue: 351, P. 123997 - 123997

Published: April 24, 2024

Language: Английский

Citations

16
Challenges in safe environmental applications of biochar: identifying risks and unintended consequence DOI Creative Commons

Mingying Dong,

Mengyuan Jiang,

Lizhi He

et al.

Biochar, Journal Year: 2025, Volume and Issue: 7(1)

Published: Jan. 14, 2025

Abstract Over the past 10–15 years, biochar has garnered significant global attention in agriculture and environmental science. While most research focused on benefits of application soil enhancement, water quality improvement, climate change mitigation, potential risks associated with its use have often been overlooked. This oversight is critical, as fate contingent upon understanding these risks. Once released into environment, can interact media, potentially releasing pollutants threatening ecosystems. Therefore, it essential to evaluate unintended health during production select appropriate types for sustainable development. review was conducted by systematically analyzing synthesizing relevant studies from Web Science, focusing recent advancements key debates field. It categorizes endogenous exogenous based source carried biochar. The analyzes detail impacts raw materials, preparation processes, scenarios Furthermore, provides a thorough overview adverse effects animals, plants, microorganisms, human health, elucidating mechanisms pollutant release, aging, nano-effects geochemical processes involving Additionally, this summarizes risk assessment methods biochar, providing reference safe development biochar-related research. Graphical

Language: Английский

Citations

4
Small microplastic particles promote tetracycline and aureomycin adsorption by biochar in an aqueous solution DOI
Shuwen Zhao,

Chuchen Zhang,

Qianru Zhang

et al.

Journal of Environmental Management, Journal Year: 2023, Volume and Issue: 349, P. 119332 - 119332

Published: Oct. 29, 2023

Language: Английский

Citations

30
Competitive adsorption behaviors and mechanisms of Cd, Ni, and Cu by biochar when coexisting with microplastics under single, binary, and ternary systems DOI

Zhuowen Meng,

Jingwei Wu, Shuang Huang

et al.

The Science of The Total Environment, Journal Year: 2023, Volume and Issue: 913, P. 169524 - 169524

Published: Dec. 21, 2023

Language: Английский

Citations

28
Preparation and application of metal-modified biochar in the purification of micro-polystyrene polluted aqueous environment DOI Open Access
Longfei Zhang, Qi Zhang,

Yunpu Wang

et al.

Journal of Environmental Management, Journal Year: 2023, Volume and Issue: 347, P. 119158 - 119158

Published: Oct. 5, 2023

Language: Английский

Citations

24
Meta-analyzing the mechanism of pyrogenic biochar strengthens nitrogen removal performance in sulfur-driven autotrophic denitrification system: Evidence from metatranscriptomics DOI

Wen-Jie Ma,

Hanmin Zhang,

Zi-Shang Ma

et al.

Water Research, Journal Year: 2024, Volume and Issue: 253, P. 121296 - 121296

Published: Feb. 9, 2024

Language: Английский

Citations

13
Adsorption efficiency and in-situ catalytic thermal degradation behaviour of microplastics from water over Fe-modified lignin-based magnetic biochar DOI
Yan Jiao, Shaoqing Wang, Boyang Sun

et al.

Separation and Purification Technology, Journal Year: 2024, Volume and Issue: 353, P. 128468 - 128468

Published: June 15, 2024

Language: Английский

Citations

12
Self-motivated photoaging of microplastics by biochar-dissolved organic matter under different pyrolysis temperatures DOI

Saisai Guo,

Honghong Lyu, Weitao Liu

et al.

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 915, P. 170043 - 170043

Published: Jan. 11, 2024

Language: Английский

Citations

11
Bisphenol A sorption on commercial polyvinyl chloride microplastics: Effects of UV-aging, biofilm colonization and additives on plastic behaviour in the environment. DOI Creative Commons
Xiaoxin Chen, Chang-Er Chen,

Shengming Cheng

et al.

Environmental Pollution, Journal Year: 2024, Volume and Issue: 356, P. 124218 - 124218

Published: May 28, 2024

Chemical additives are important components in commercial microplastics and their leaching behaviour has been widely studied. However, little is known about the potential effect of on adsorption/desorption pollutants subsequent role as vectors for pollutant transport environment. In this study, two types polyvinyl chloride (PVC

Language: Английский

Citations

9