Partner: D.T. Hai |
Recent publications
1. | Phuong N.T.♦, Thi Thom N.♦, Thi Nam P.♦, Van Trang N.♦, Thi Huong T.T.♦, Hai D.T.♦, Thu L.P.♦, Osial M., Thanh D.T.M.♦, Co2+ and Cr3+ ions removal from wastewater by using nanostructural hydroxyapatite, Vietnam Journal of Chemistry, ISSN: 2572-8288, DOI: 10.1002/vjch.202200072, Vol.60, pp.135-147, 2022 Abstract: Due to the growing pollution of the environment, water purification methods have to be improved. One of the most effective solutions is the removal of heavy metal ions by porous materials, including hydroxyapatite. Lao Cai Province in Vietnam has a tremendous reservoir of apatite ore that can be a precursor for nanostructural materials. In this paper, we refer to the recent studies on removing heavy metal salts, including the cobalt and chromium ions, from the wastewater by the nanostructural hydroxyapatite obtained from the apatite ore gained in the Lao Cai Province. The measurements were performed according to the pH, mass of the adsorbent addition into the real wastewater solution, and time exposition onto the adsorbent; and the suitable condition is a dose of modified apatite of 1 g/L; contacting time of 60 minutes and 6 g/L and 15 minutes in the pH range from pH0 (3.76 and 6.57) to neutral pH corresponding to Cr3+ and Co2+. We show that just a small amount of the nanostructural hydroxyapatite can work efficiently to remove the chromium and cobalt ions from the solution with maximum adsorption capacity is 70.37 mg/g and 13.52 mg/g, respectively. Keywords:nanostructural hydroxyapatite, apatite ore, wastewater treatment, heavy metal ions removal, novel ecofriendly adsorbent Affiliations:
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2. | Thanh D.T.M.♦, Phuong N.T.♦, Hai D.T.♦, Giang H.N.♦, Thom N.T.♦, Nam P.T.♦, Dung N.T.♦, Giersig M., Osial M., Influence of Experimental Conditions during Synthesis on the Physicochemical Properties of the SPION/Hydroxyapatite Nanocomposite for Magnetic Hyperthermia Application, MAGNETOCHEMISTRY, ISSN: 2312-7481, DOI: 10.3390/magnetochemistry8080090, Vol.8, No.8:90, pp.1-17, 2022 Abstract: In this work, we report on the fabrication of nanocomposites based on superparamagnetic iron oxide nanoparticles (SPIONs) in combination with hydroxyapatite (HAp) as a platform for drug delivery and magnetic hyperthermia application. First, the influence of experimental conditions such as co-precipitant, bath temperature, and pH on the morphology and magnetic properties of SPIONs was investigated. Then, the superparamagnetic particles were coated with the hydroxyapatite layer for further loading of anticancer drugs, determining the optimal thickness of the HAp shell. The composite was fabricated by the wet chemical process and was characterized by optimizing the experimental conditions of the wiring synthesis to obtain the superparamagnetic spherical material with a high HAp loading as a platform for drug uptake. SEM and TEM studies confirmed the round shape of the magnetic core up to 15 nm in size with a well-defined HAp shell. After checking the material’s superparamagnetic properties, the temperature dependence on time and alternating magnetic field strength was tested and optimized in hyperthermia experiments. Keywords:superparamagnetic iron oxide nanoparticles (SPIONs), hydroxyapatite, nanocomposite, magnetic hyperthermia Affiliations:
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