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1. Remediation of tetracycline pollution using MXene and nano-zero-valent iron materials: a review

   Antibiotic resistance is a major health issue partly caused by the diffusion of antibiotic pollution in the natural environment, thus calling for...

   Sankar Sudharsan Rameshwar, Baskaran Sivaprakash, ... Dai-Viet N. Vo in Environmental Chemistry Letters

   Article 01 July 2023
   

2. Synthesis and environmental applications of biochar-supported nano-zero-valent iron composites: a review

   In the context of increasing pollution of almost all environmental media, there is a need for efficient and sustainable techniques to remove...

   **nlian Zhong, Yujian Lai, ... Hongbing Ji in Environmental Chemistry Letters

   Article 05 March 2024
   

3. Insights into influence of aging processes on zero-valent iron modified biochar in copper(II) immobilization: from batch solution to pilot-scale investigation

   The zero-valent iron modified biochar materials are widely employed for heavy metals immobilization. However, these materials would be inevitably...

   Huabin Wang, Dingxiang Chen, ... Rui Xu in Frontiers of Chemical Science and Engineering

   Article 05 June 2023
   

4. Removal of Cd(II) and Cr(VI) from Aqueous Solution by Peanut Shell Biochar-zero-valent Iron Composites: Performance, Effects and Mechanisms

   Biochar-zero-valent iron composites are promising materials for the removal of heavy metals from aqueous solution, but further research is still...

   Zijun Ye, Fangmin Yan, ... Fei Wang in Water, Air, & Soil Pollution

   Article 27 June 2024
   

5. Clay-Supported Nanoscale Zero-Valent Iron Composites for Water Purification

   Anthropogenic water pollution hasClay Supported Nanoscale Zero-valent Iron resulted in increased concentrations of aquatic contaminants that can be...

   Yasmitha A. Alahakoon, Uthsara Malaweera Arachchi, Sameera R. Gunatilake in Clay Composites

   Chapter 2023
   

6. Application and development of zero-valent iron (ZVI) for groundwater and wastewater treatment

   Zero-valent iron has been used for more than 130 years for water treatment. It is based on redox reactions as well as on sorption to the corrosion...

   K. Plessl, A. Russ, D. Vollprecht in International Journal of Environmental Science and Technology

   Article Open access 26 September 2022

7. Comparing the Microstructural Changes of Mechanically Activated Hematite During Nano Zero-Valent Iron Preparation

   This investigation presents a new method for preparing nano zero-valent iron (NZVI) from mechanically activated hematite. The XRD analysis indicated...

   B. N. Akhgar in Journal of Sustainable Metallurgy

   Article 30 April 2024
   

8. Zero-valent Iron Enhances Acetate and Butyrate Production from Carbon Monoxide by Fonticella tunisiensis HN43

   The use of carbon monoxide (CO) as a valuable feedstock for producing various platform chemicals through biorefinery processes has attracted...

   Hyeon Sung Im, Da Seul Kong, ... Jung Rae Kim in Biotechnology and Bioprocess Engineering

   Article 15 September 2023

9. Sludge deep dewatering enhanced by zero-valent iron/peroxymonosulfate/walnut shell powder

   To enhance sludge dewatering performance, Zero-valent iron/peroxymonosulfate/walnut shell powder was used to condition sludge at 55 °C and pH=3...

   Yan** Zhang, Miaolin He, ... **ghao Dong in Korean Journal of Chemical Engineering

   Article 26 June 2023

10. Removal Performance and Mechanism of Cr(VI) by Zero-Valent Iron Doped Chlorapatite

    Chromium has been considered as one of the most hazardous heavy metals because of its strong and persistent toxicity to the ecosystem and human...

    Haihua Li, **nyi Wang, ... Gaojie Chai in Water, Air, & Soil Pollution

    Article 20 April 2024
    

11. Zero-Valent Nanomaterials for Wastewater Treatment

    Wastewater from various industries majorly includes organic pollutants and heavy metals. They pose a serious threat to the environment because they...

    Arindam Sinharoy, Priyanka Uddandarao in Advanced Application of Nanotechnology to Industrial Wastewater

    Chapter 2023
    

12. Development of catalytic zero-valent iron incorporated PAN catalytic film for efficient degradation of organic matters

    Catalytic films work well in degradation of organic matters. However, catalytic activity and stability of films are challenging factors. A nanoscale...

    Yi Yang, Haowen Lin, ... J. Paul Chen in npj Clean Water

    Article Open access 13 May 2024
    

13. Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles

    The optimal conditions for the green synthesis of nano zero-valent iron (G-NZVI) using mango peel extract were investigated using a Box-Behnken...

    Ratthiwa Deewan, Dickson Yuk-Shing Yan, ... Visanu Tanboonchuy in Environmental Science and Pollution Research

    Article 17 December 2022
    

14. Fabrication of Zero-Valent Iron Nanoparticles Impregnated Cross-Linked Chitosan Grafted β-Cyclodextrin for Removal of Cloxacillin from Aqueous Environment

    A novel zero-valent iron nanoparticles impregnated cross-linked chitosan grafted β-cyclodextrin (Fe-CCS-g-β-CD) adsorbent was fabricated to eliminate...

    Nafisur Rahman, Mohd Nasir, ... Mohammad Shahzad Samdani in Journal of Inorganic and Organometallic Polymers and Materials

    Article 16 November 2023
    

15. Effects of Nano-zero-valent Iron and Earthworms on Soil Physicochemical Properties and Microecology in Cadmium-Contaminated Soils

    The capacity of nano-zero-valent iron (nZVI) and soil animals to remediate heavy metal–contaminated soil has been widely studied. However, the...

    Bincheng Tang, Yufen Zi, ... Changqun Duan in Water, Air, & Soil Pollution

    Article Open access 12 January 2024
    

16. Comparison of the Efficiency of Micro- and Nanoparticles of Zero-Valent Iron in the Detoxification of Technogenically Polluted Soil

    Abstract

    The safety of micro- and nanoparticle sorbents based on zero-valent iron and their detoxifying activity in peat eutrophic soil (Eutric...

    Yu. D. Sergeeva, A. P. Kiryushina, ... V. A. Terekhova in Eurasian Soil Science

    Article 01 February 2023

17. Integrated application of green zero-valent iron and electrokinetic remediation of metal-polluted sediment

    Abstract

    In recent years, more focus has been placed on integrated metal removal processes. Electrokinetic (EK) treatment is superior to other...

    Nataša Duduković, Nataša Slijepčević, ... Dejan Krčmar in Environmental Geochemistry and Health

    Article 17 May 2023
    

18. Efficient removal of natural organo-chromium(III) through self-circulating decomplex and immobilization with nanoscale zero-valent iron

    Organo-chromium(III) complex is one of the chromium contaminant species, which would transform to high-toxic Cr(VI) during migrating in the...

    Zhicheng Dong, Yunyun Xu, ... Zhang Lin in Nano Research

    Article 30 August 2023
    

19. Degradation behaviors and accumulative effects of coexisting chlorobenzene congeners on the dechlorination of hexachlorobenzene in soil by nanoscale zero-valent iron

    It is well known that many chlorinated organic pollutants can be dechlorinated by nanoscale zero-valent iron. However, in the real chlorinated...

    Qi Wang in Environmental Geochemistry and Health

    Article 11 January 2023
    

20. Green production of zero-valent iron nanoparticles using pomegranate peel extracts and its use in lindane degradation

    Zero-valent iron nanoparticles are cost-effective and environmentally benign reducing agents that can be used to degrade several environmental...

    Ritu Ningthoujam, Banishree Sahoo, ... Surabhi Chaudhuri in Nanotechnology for Environmental Engineering

    Article 02 March 2023