V.F.C. and A.F. contributed equally to this work. The authors thank the FCT—Fundacao para a Ciencia e Tecnologia—for financial support under framework of the Strategic Funding UID/FIS/04650/2013, project PTDC/ EEI-SII/5582/2014 and project UID/EEA/04436/2013 by FEDER funds through the COMPETE 2020—Programa Operacional Competitividade e Internacionalizacao (POCI). Funds provided by FCT in the framework of EuroNanoMed 2016 call, Project LungChek ENMed/0049/2016 are also gratefully acknowledged. V.F.C., A.F., C.R., and P.M. also thank the FCT for the grants SFRH/BPD/98109/2013, SFRH/BPD/104204/2014, SFRH/ BPD/90870/2012 and SFRH/BPD/96227/2013, respectively. Finally, the authors acknowledge funding by the Spanish Ministry of Economy and Competitiveness (MINECO) through the project MAT2016-76039C4-3-R (AEI/FEDER, UE) and from the Basque Government Industry Department under the ELKARTEK program.

Advances in Magnetic Nanoparticles for Biomedical Applications.

Exposure of engineered nanomaterials to plants: Insights into the physiological and biochemical responses-A review

Recent progress and future challenges on the use of high performance magnetic nano-adsorbents in environmental applications

In the 21st century water polluted by heavy metal is one of the environment problems. Various methods for removal of the heavy metal ions from the water have extensively been studied. Application of iron oxide nanaparticles based nanomaterials for removal of heavy metals is well-known adsorbents for remediation of water. Due to its important physiochemical property, inexpensive method and easy regeneration in the presence of external magnetic field make them more attractive toward water purification. Surface modification strategy of iron oxide nanoparticles is also used for the remediation of water increases the efficiency of iron oxide for the removal of the heavy metal ions from the aqueous system.

/pdf/application-of-iron-oxide-nanomaterials-for-the-removal-of-44p5cj2fai.pdf

Application of Iron Oxide Nanomaterials for the Removal of Heavy Metals

Iron oxide and its modified forms as an adsorbent for arsenic removal: A comprehensive recent advancement

Removal of arsenic contaminants with magnetic γ-Fe2O3 nanoparticles

A helical module microchannel reactor (MR) was developed for the preparation of magnetic iron oxide nanoparticles (MIONPs) by co-precipitation. The product properties were characterized by TEM, XRD, XPS and BET, which showed that the MIONPs obtained from MR appeared a more uniform size distribution, a better crystallinity, a smaller size but larger specific surface area, as compared to their counterpart obtained from conventional stirred reactor (SR). The workability of the synthesized MIONPs using MR in waste water treatment was examined using aqueous arsenite, arsenate and chromate as samples. The results obtained in the present study showed the advantages of using MR to fabricate MIONPs with high conversion yield and high productivity. The fabricated MIONPs is promising for a rapid and complete removal of aqueous hazard compounds.

Preparation of uniform magnetic iron oxide nanoparticles by co-precipitation in a helical module microchannel reactor

Long-root Eichhornia crassipes as a biodegradable adsorbent for aqueous As(III) and As(V)

Novel assembly of BiVO4@N-Biochar nanocomposite for efficient detoxification of triclosan.

Direct alkylation and acylation of 2H‐indazoles using aldehydes under metal‐free conditions

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