Adsorption of Ag<sup>+</sup> ions using hydroxyapatite powder and recovery silver by electrodeposition

Nam, Pham Thi; Thanh, Dinh Thi Mai; Phuong, Nguyen Thu; Trang, Nguyen Thi Thu; Hong, Cao Thi; Anh, Vo Thi Kieu; Lam, Tran Dai; Thom, Nguyen Thi

doi:10.1002/vjch.202000148

Cited by 10 publications

(2 citation statements)

References 17 publications

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“…Một số nghiên cứu đã được công bố về khả năng giải hấp phụ kim loại nặng từ các vật liệu khác nhau, như hydroxyapatite [4,5], kaolinite [6], chất hấp phụ sinh học [7,8] và một số vật liệu khác [9][10][11][12]. Sự giải hấp phụ chủ yếu được thực hiện bằng phương pháp hoá học và rất ít đề cập đến việc thu hồi kim loại sau quá trình giải hấp phụ.…”

Section: Giới Thiệu Chungunclassified

“…Sử dụng phương pháp điện hoá để đồng thời giải hấp phụ ion kim loại và thu hồi kim loại cho hiệu quả cao và khả thi, tuy nhiên có rất ít công trình đã được công bố. Phạm Thị Năm và nhóm nghiên cứu [5] đã giải hấp ion Ag + khỏi vật liệu hấp phụ hydroxyapatit tự tổng hợp và thu hồi Ag kim loại bằng kỹ thuật áp dòng, sử dụng dung dịch điện ly H2SO4, hiệu suất thu hồi Ag đạt 60%. Nhóm nghiên cứu của chúng tôi cũng đã giải hấp phụ và thu hồi Ag từ vật liệu hấp phụ hydroxyapatit tổng hợp bằng phương pháp áp thế.…”

Section: Giới Thiệu Chungunclassified

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Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Le Thi Phuong Thao,

Le Thi Duyen

2024

Vietnam j. catal. adsorp.

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Research results on the adsorption process of halloysite material in Thach Khoan, Phu Tho area for Pb2+ showed that this halloysite material has good Pb2+ adsorption ability with an adsorption efficiency of 90.75% under optimal conditions. The process of desorption of Pb2+ from Pb-adsorbed halloysite material and also recovery of metallic Pb by electrochemical precipitation method has been studied. The electrolysis process was carried out under constant current mode in 0.01M HCl electrolyte with an electrochemical system including a working electrode as an Au electrode (geometric area of 1 cm2), a reference electrode as a silver/silver chloride electrode, and a counter electrode as a Pt grid. The effects of current intensity, mass of adsorbed halloysite material, and electrolysis time on Pb2+ desorption and Pb recovery were evaluated. The obtained results show that, under electrolysis conditions: current density 5 mA/cm2, material mass 0.3 g, electrolysis time 5 h, temperature 25oC, Pb recovery efficiency reached 93.67%. The result shown that the electrochemical precipitation method is effective in desorbing Pb2+ and recovering metallic Pb.

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Section: Giới Thiệu Chungunclassified

Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Le Thi Phuong Thao,

Le Thi Duyen

2024

Vietnam j. catal. adsorp.

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Co²⁺ and Cr³⁺ ions removal from wastewater by using nanostructural hydroxyapatite

Phuong,

Thom,

Nam

et al. 2022

Vietnam Journal of Chemistry

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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.

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Apatite Ore-based Nanostructures: Novel and Eco-friendly Sorbent for Efficient Removal of Wastewater Containing Pb2+ and Fe3+

Phuong,

Nam,

Hong

et al. 2023

Water Air Soil Pollut

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Adsorption of Ag⁺ ions using hydroxyapatite powder and recovery silver by electrodeposition

Cited by 10 publications

References 17 publications

Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Co²⁺ and Cr³⁺ ions removal from wastewater by using nanostructural hydroxyapatite

Apatite Ore-based Nanostructures: Novel and Eco-friendly Sorbent for Efficient Removal of Wastewater Containing Pb2+ and Fe3+

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Adsorption of Ag+ ions using hydroxyapatite powder and recovery silver by electrodeposition

Cited by 10 publications

References 17 publications

Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Research on Pb2+ desorption and Pb recovery from halloysite adsorbent materials by electrochemical precipitation method

Co2+ and Cr3+ ions removal from wastewater by using nanostructural hydroxyapatite

Apatite Ore-based Nanostructures: Novel and Eco-friendly Sorbent for Efficient Removal of Wastewater Containing Pb2+ and Fe3+

Contact Info

Product

Resources

About

Adsorption of Ag⁺ ions using hydroxyapatite powder and recovery silver by electrodeposition

Co²⁺ and Cr³⁺ ions removal from wastewater by using nanostructural hydroxyapatite