EER :: Environmental Engineering Research

Modified Oyster Waste Shells as a Value-Added Sorbent for Lead Removal from Water

Bulletin of Environmental Contamination and Toxico.2022; 108(3): 518. CrossRef

Snail Based Carbonated-Hydroxyapatite Material as Adsorbents for Water Iron (II)

Bernard Owusu Asimeng, Edward Kwame Amenyaglo, David Dodoo-Arhin, Johnson Kwame Efavi, Bright Kwakye-Awuah, Elvis Kwason Tiburu, E. Johan Foster, Jan Czernuska

Kinetic and thermodynamic investigation on adsorption of lead onto apatite extracted from mixed fish bone

Sabrina Mostofa, Shirin Akter Jahan, Badhan Saha, Nahid Sharmin, Samina Ahmed

Environmental Nanotechnology, Monitoring & Managem.2022; 18: 100738. CrossRef

Preparation of Porous Hydroxyapatite Using Cetyl Trimethyl Ammonium Bromide as Surfactant for the Removal of Lead Ions from Aquatic Solutions

Silviu-Adrian Predoi, Carmen Steluta Ciobanu, Mikael Motelica-Heino, Mariana Carmen Chifiriuc, Monica Luminita Badea, Simona Liliana Iconaru

Hydroxyapatite, a multifunctional material for air, water and soil pollution control: A review

Maya Ibrahim, Madona Labaki, Jean-Marc Giraudon, Jean-François Lamonier

Journal of Hazardous Materials.2020; 383: 121139. CrossRef

Advancing the understanding of treponemal disease in the past and present

Brenda J. Baker, Gillian Crane‐Kramer, Michael W. Dee, Lesley A. Gregoricka, Maciej Henneberg, Christine Lee, Sheila A. Lukehart, David C. Mabey, Charlotte A. Roberts, Ann L. W. Stodder, Anne C. Stone, Stevie Winingear

American Journal of Physical Anthropology.2020; 171(S70): 5. CrossRef

Adsorptive removal of Pb (II) by means of hydroxyapatite/chitosan nanocomposite hybrid nanoadsorbent: ANFIS modeling and experimental study

Amin Sadeghizadeh, Farbod Ebrahimi, Maryam Heydari, Milad Tahmasebikohyani, Farshad Ebrahimi, Afsoon Sadeghizadeh

Journal of Environmental Management.2019; 232: 342. CrossRef

Volcanoes, medicine, and monasticism: Investigating mercury exposure in medieval Iceland

Joe W. Walser, Steinunn Kristjánsdóttir, Rebecca Gowland, Natasa Desnica

International Journal of Osteoarchaeology.2019; 29(1): 48. CrossRef

In-depth study of the mechanism of heavy metal trapping on the surface of hydroxyapatite

Michele Ferri, Sebastiano Campisi, Marco Scavini, Claudio Evangelisti, Paolo Carniti, Antonella Gervasini

Applied Surface Science.2019; 475: 397. CrossRef

Tailoring the structural and morphological properties of hydroxyapatite materials to enhance the capture efficiency towards copper(ii) and lead(ii) ions

Sebastiano Campisi, Carlo Castellano, Antonella Gervasini

New Journal of Chemistry.2018; 42(6): 4520. CrossRef

Facile pyrolysis of fishbone charcoal with remarkable adsorption performance towards aqueous Pb (II)

Wei Wang, Yanyan Liu, Shaoxian Song, Weiquan Cai

Journal of Environmental Chemical Engineering.2017; 5(5): 4621. CrossRef

Ability of Hydroxyapatite Synthesized from Waste Oyster Shells to Remove Fluoride Ions

Sota Terasaka, Masanobu Kamitakahara, Taishi Yokoi, Hideaki Matsubara

MATERIALS TRANSACTIONS.2015; 56(9): 1509. CrossRef

A designed magnetic CoFe2O4–hydroxyapatite core–shell nanocomposite for Zn(II) removal with high efficiency

Firoozeh Foroughi, S.A. Hassanzadeh-Tabrizi, Jamshid Amighian, Ali Saffar-Teluri

Ceramics International.2015; 41(5): 6844. CrossRef

Cinnabar in Mesoamerica: poisoning or mortuary ritual?

Alfonso Ávila, Josefina Mansilla, Pedro Bosch, Carmen Pijoan

Journal of Archaeological Science.2014; 49: 48. CrossRef

Synthesis of strontium hydroxyapatite embedding ferroferric oxide nano-composite and its application in Pb2+ adsorption

Limei Cui, Weiying Xu, Xiaoyao Guo, Yakun Zhang, Qin Wei, Bin Du

Journal of Molecular Liquids.2014; 197: 40. CrossRef

Shape evolution and size controlled synthesis of mesoporous hydroxyapatite nanostructures and their morphology dependent Pb(ii) removal from waste water

G. Bharath, A. Jagadeesh Kumar, K. Karthick, D. Mangalaraj, C. Viswanathan, N. Ponpandian

Adsorptive removal of Pb(II) from aqueous solution using nano-sized hydroxyapatite

S. T. Ramesh, N. Rameshbabu, R. Gandhimathi, M. Srikanth Kumar, P. V. Nidheesh

Applied Water Science.2013; 3(1): 105. CrossRef

Lead sorption properties of nanohydroxyapatite–alginate composite adsorbents

Fahimeh Googerdchian, Ahmad Moheb, Rahmatollah Emadi

Chemical Engineering Journal.2012; 200-202: 471. CrossRef

Suppressive Effects of Hydroxyapatite-like Compounds Added to Soil on Cadmium Uptake by Plants

Md Shoffikul ISLAM, Daisuke UENO, Takashi SOMEYA, Koichi INOUE

Environment Control in Biology.2012; 50(4): 383. CrossRef

Immobilization of Cadmium in Soil by Newly Developed Apatite-like Compounds Prepared from Oyster Shells

Md. Shoffikul ISLAM, Daisuke UENO, Takashi SOMEYA, Koichi INOUE

Environment Control in Biology.2012; 50(1): 81. CrossRef

Removal of Cu(II) with hydroxyapatite (animal bone) as an inorganic ion exchanger

Desalination and Water Treatment.2009; 4(1-3): 269. CrossRef