Tuo Zhou’s research while affiliated with Tsinghua University and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (11)


A Review of the Electrochemical Coupled Leaching Technique: An Effective Solution for Remediation of Heavy Metal Contaminated Soils
  • Article

December 2024

·

15 Reads

·

1 Citation

Reviews of Environmental Contamination and Toxicology

Zongwei Wang

·

Yi Wu

·

·

Tuo Zhou

Electrochemical technology is a widely employed technique for remediating soil contaminated with heavy metals. This technology can be utilized alone or in conjunction with other remediation techniques to improve the efficacy of heavy metals removal. The principle of electrochemical remediation technology involves utilization of electromigration, electroosmosis, and electrodialysis effects generated by an external electric field to transfer heavy metals from the soil to electrodes’ vicinity. However, this technology has not without limitations and challenges, including low permeability, pH gradient, soil composition, and heavy metal form, among other influencing factors. To overcome these obstacles, novel electrochemical coupling techniques have been proposed and developed, such as incorporating leaching agents, altering electrode materials or structures, employing pulse or alternating current sources. These technologies aim to increase the migration rate of heavy metals, decrease energy consumption, minimize by-products, and enhance the remediation effects. Among these, chemical leaching agents have garnered attention due to their outstanding treatment effects, simple technology, and ease of operation. Consequently, this paper first delineates the advantages of electrochemical technology and leaching technology over traditional adsorption passivation technology from the perspective of the removal mechanism. Secondly, the emphasis was placed on elucidating the technical principles of electrochemical technology and leaching techniques, as well as highlighting the drawbacks and limitations associated with their standalone application. Lastly, a remediation scheme for heavy metal-contaminated soil utilizing electrochemical coupling leaching technology is proposed. The practical significance of this work lies in the fact that electrochemical coupling leaching technology, compared to traditional adsorption passivation techniques, can greatly enhance the efficiency and effectiveness of heavy metal-contaminated soil remediation. It achieves the efficient, rapid, and thorough removal of heavy metal ions from the soil. Electrochemical coupling leaching technology speeds up the chemical leaching process that removes heavy metals from the soil, taking advantage of the best parts of both methods. The electric field then directs, aggregates, and deposits the released heavy metal ions onto electrodes, effectively separating them from the soil. This technology represents a thoroughly effective removal method, capable of avoiding the problem of secondary pollution caused by the re-release of heavy metal ions into the soil due to the changes in external environmental conditions. Therefore, research and application of electrochemical coupling leaching technology hold significant practical and scientific value.









New Straw Coating Material for Improving the Slow-Release Performance of Fertilizers

August 2023

·

26 Reads

·

10 Citations

ACS Applied Materials & Interfaces

In this work, we extracted cellulose from agricultural waste and produced a new straw coating material (ethyl cellulose, EC) through a series of modification operations. The slow-release properties of ethyl cellulose-coated urea (EU) and its absorption and utilization by plants were evaluated. The surface of EU can form a smooth and fine film, and the initial nutrient release rate is only 37.91% that of the uncoated fertilizer. Compared with common urea, the nitrogen of plants cultivated with EU increased by 17.69%, and the leached nitrogen decreased by 61.29%, indicating that EU can reduce nitrogen waste to the greatest extent and continuously supply nutrients to crops. Therefore, the application of EU could be a more practical, environmentally friendly, and sustainable alternative to nitrogen fertilizers.



Citations (5)


... The FT-IR spectroscopy results ( Figure S5) revealed that the broad peaks around 3400 cm −1 were related to the stretching vibrations of -OH groups. These peaks became more defined after charring and activation, indicating that the biochar conversion process involved the transformation of oxygen-containing functional groups [38,39]. Small peaks near 2920 cm −1 and 2850 cm −1 corresponded to C-H stretching vibrations in cellulose and hemicellulose, while peaks between 1600 and 1650 cm −1 represented C=C or C=O stretching vibrations in carbonyl groups. ...

Reference:

Biochar Composite with Enhanced Performance Prepared Through Microbial Modification for Water Pollutant Removal
Exploring the Mechanism of Removing Cd from Polluted Soil using Electrochemical Leaching with Straw Carbon Film Electrode
  • Citing Article
  • May 2024

Journal of Environmental Chemical Engineering

... Urbanization, along with extensive engineering projects, transportation activities, and pollutant emissions (Wu ZN et al. 2016;Sahito et al. 2024), has caused a widespread issue with the accumulation of multiple contaminants in the soil Wu Y et al. 2024). Heavy metals including copper (Cu), lead (Pb) and zinc (Zn) are commonly found in urban green spaces, particularly in the soil of industrial and traffic-affected regions (Liang et al. 2017). ...

Recovery and regeneration of water-hardened magnetic composite biochar sphere for the removal of multiple heavy metals in contaminated soils
  • Citing Article
  • March 2024

Journal of Cleaner Production

... Among these, hydrogels hold significant promise due to their sensitivity and responsiveness to stimuli, particularly temperature. Recent advancements have also explored the synthesis of hydrogels using cellulose derived from lignocellulosic materials, such as agricultural residues (e.g., rice husk [14], oil palm empty fruit bunches [15]) and fruit waste (e.g., banana fiber waste [16]). These materials offer a biodegradable and renewable alternative for hydrogel formulation, improving biocompatibility and environmental sustainability [17]. ...

Cellulose extraction from rice straw waste for biodegradable ethyl cellulose films preparation using green chemical technology
  • Citing Article
  • February 2024

Journal of Cleaner Production

... The effectiveness of biochar varies significantly based on the biomass feedstock and pyrolysis conditions, which complicates large-scale production [90]. The type of biomass used to produce biochar affects its surface area, pore structure, and functional groups, which are critical for adsorption capacity [91]. ...

Biochar application for the remediation of soil contaminated with potentially toxic elements: Current situation and challenges
  • Citing Article
  • December 2023

Journal of Environmental Management

... Many materials have been used as fertilizer coatings, among which are sulfur [77], polymers [15,[78][79][80][81][82][83], fatty acids [84], calcium and magnesium phosphates [85], clay [63,86], phosphogypsium [87], etc. Sulfur and polymers are briefly discussed. ...

New Straw Coating Material for Improving the Slow-Release Performance of Fertilizers
  • Citing Article
  • August 2023

ACS Applied Materials & Interfaces