Volume 14 Number 5 2017
Interfaces Against Pollution
EN16192Doped Ti-pillared clays as effective adsorbents – Application to methylene blue and trimethoprim removal
Environmental context. Water is an essential compound for life; however, several factors limit the amount available for human consumption. Every day, thousands of pollutants are discharged into drinking water. Here, new materials that are efficient as adsorbents and photocatalysts for pollutants are reported.
Environmental context. Oceans and seas have the potential to play a significant role in providing renewable and clean energy. In particular, salinity difference energy aims to extract the enormous amount of energy that is released when fresh water rivers flow into the oceans. Capmix methods are focused on this challenge by using capacitive carbon electrodes whose optimisation will certainly help in developing salinity difference energy.
EN17004Desorption rate of glyphosate from goethite as affected by different entering ligands: hints on the desorption mechanism
Environmental context. Glyphosate is a heavily used herbicide that is mobilised in soil and sediments through adsorption–desorption processes from the surface of mineral particles. We demonstrate that the desorption rate of glyphosate from goethite, a ubiquitous mineral, is nearly independent of the concentration and nature of the substance that is used to desorb it. The results elucidate the desorption mechanism and are relevant to understand and predict the environmental mobility of glyphosate.
EN16216The relationship between inner surface potential and electrokinetic potential from an experimental and theoretical point of view
Environmental context. Interfacial properties of colloid and nanoparticles are directly related to the reactivity and surface densities of existing surface sites. Surface characterisation of particles provides only some kind of average surface properties. Analysis of well-defined monocrystal surfaces, which form the surface of the single particle, leads to a better understanding of surface reactions and mutual interactions of adjacent crystal planes on average surface properties.
EN17028Metal removal by pine bark compost using a permeable reactive barrier device at laboratory scale
Environmental context. Permeable reactive barriers are a developing technology to clean up contaminated groundwater. The contaminant plume moves through a reactive material placed below ground that retains or degrades the pollutants. This study shows that pine bark compost strongly adsorbs and retains metals, mostly by interaction with the organic matter of the compost, and thereby serves as a suitable reactive filler material to clean up contaminated groundwater.
EN16213Assessing the optimal conditions for surface-mediated disinfection of Influenza A virus solutions
Environmental context. Transmission of viruses is related to their survival while being outside the host body. By means of experimental and computational simulations we assess the optimal conditions for virus deactivation upon contact with particularly functionalised substrates. These results constitute the basis for the design of new surfaces with high antiviral activity that can be important in public or sensitive environments such as in hospitals where the contamination and spreading of viruses are a critical issue.
Environmental context. Ammonium ion, an inorganic pollutant in agricultural land, can induce eutrophication, impacting on water quality. We investigate the adsorption of ammonium ion on surfactant-modified alumina and demonstrate highly efficient removal of ammonium ions by the alumina from two agricultural water samples. Adsorption mechanisms are also proposed based on adsorption isotherms, surface modification and the change in surface charge.
Environmental context. Soil pollution is an important concern and remediation techniques, especially in situ techniques, should be studied. We investigate a new technique based on foam generation and placement inside the porous soil to improve the pollutant extraction. This technique could be useful when the soils are heterogeneous because it allows a complete soil sweeping.
These articles have been peer reviewed and accepted for publication. They are still in production and have not been edited, so may differ from the final published form.
The Analysis of Trichloroethene (TCE) Vapor in Soil Gas Samples using Solid Sorbent Tubes with Gas Chromatography/Mass Spectrometry
Activation of sodium percarbonate with ferrous ions for degradation of chlorobenzene in aqueous solution: Mechanism, pathway and comparison with hydrogen peroxide
Degradation of pentachlorophenol as a model hazardous and recalcitrant organochlorinated pollutant using Ag(III)
A silver fiber prepared by a facile method for solid-phase microextraction of polycyclic aromatic hydrocarbons
Evaluation of uptake mechanisms of phosphate by Fe(III)(oxyhydr)oxides in Early Proterozoic oceanic conditions
Impacts of elevated pCO2 on trace gas emissions in two microalgae: Phaeocystis globosa and Nitzschia closterium
Isolation and purifications treatments change the metal binding properties of humic acids: effect of the HF/HCl treatment
Catalytic Activity and Mechanism of Ordered Mesoporous Iron Oxides on Hydrogen Peroxide for Degradation of Norfloxacin in Water at Neutral pH
Gold nanoparticles dotted ionic liquid functionalized carbon hybrid material for ultra-sensitive detection of bisphenol A
Synchrotron X-ray absorption spectroscopy reveals antimony sequestration by reduced sulfur in a freshwater wetland sediment
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Boron detection and quantification based on the absorption spectra of pyridoxine and its boron complexEnvironmental Chemistry 14 (3)Fuming Chen, Ye Ai, Hui Ying Yang
Environmental Chemistry 14 (4)Zhenlan Xu, Lingxiangyu Li, Bernhard Henkelmann, Karl-Werner Schramm
Desorption rate of glyphosate from goethite as affected by different entering ligands: hints on the desorption mechanismEnvironmental Chemistry 14 (5)Jeison M. Arroyave, Carolina C. Waiman, Graciela P. Zanini, Wenfeng Tan, Marcelo J. Avena
Environmental Chemistry 14 (5)A. V. Delgado, S. Ahualli, M. M. Fernández, M. A. González, G. R. Iglesias, J. F. Vivo-Vilches, M. L. Jiménez
Characterisation of extracellular polymeric substances from different cyanobacterial species and their influence on biocalcification processesEnvironmental Chemistry 14 (4)Xiaomin Li, Kemeng Luo, Jinqian Ren, Xiangrui Wang, Qian Mu, Wenhong Fan
The relationship between inner surface potential and electrokinetic potential from an experimental and theoretical point of viewEnvironmental Chemistry 14 (5)Tajana Preočanin, Danijel Namjesnik, Matthew A. Brown, Johannes Lützenkirchen
Ion exchange technique (IET) to characterise Ag+ exposure in soil extracts contaminated with engineered silver nanoparticlesEnvironmental Chemistry 14 (2)Dina Schwertfeger, Jessica Velicogna, Alexander Jesmer, Heather McShane, Richard Scroggins, Juliska Princz
Studying selenium and sulfur volatilisation by marine algae Emiliania huxleyi and Thalassiosira oceanica in cultureEnvironmental Chemistry 14 (4)Katja E. Luxem, Bas Vriens, Renata Behra, Lenny H. E. Winkel
Environmental Chemistry 14 (3)Maja A. Larsson, Ingmar Persson, Carin Sjöstedt, Jon Petter Gustafsson
Using fluorescence quenching combined with two-dimensional correlation fluorescence spectroscopy to characterise the binding-site heterogeneity of dissolved organic matter with copper and mercury in lake sedimentsEnvironmental Chemistry 14 (2)Xu-jing Guo, Yun-zhen Li, Yan-hong Feng, Dong-hai Yuan
Online analysis of secondary organic aerosols from OH-initiated photooxidation and ozonolysis of α-pinene, β-pinene, Δ3-carene and d-limonene by thermal desorption–photoionisation aerosol mass spectrometryEnvironmental Chemistry 14 (2)Wenzheng Fang, Lei Gong, Liusi Sheng
On-site determination of bisphenol A in river water by a novel solid-state electrochemiluminescence quenching sensorEnvironmental Chemistry 14 (2)Xiaoying Wang, Yijie Wang, Meng Jiang, Yanqun Shan, Xiaobing Wang
Doped Ti-pillared clays as effective adsorbents – Application to methylene blue and trimethoprim removalEnvironmental Chemistry 14 (5)Beatriz González, Raquel Trujillano, Miguel A. Vicente, Vicente Rives, Emerson H. de Faria, Katia J. Ciuffi, Sophia A. Korili, Antonio Gil
Temporal and spatial variations of three dimethylated sulfur compounds in the Changjiang Estuary and its adjacent area during summer and winterEnvironmental Chemistry 14 (3)Nan Gao, Gui-Peng Yang, Hong-Hai Zhang, Long Liu
Solubility of the nadorite group minerals: implications for mobility of Sb and Bi in oxidised settingsEnvironmental Chemistry 14 (4)Adam J. Roper, Peter Leverett, Timothy D. Murphy, Peter A. Williams
Environmental Chemistry 14 (5)Tien Duc Pham, Thi Trang Do, Van Lau Ha, Thi Hai Yen Doan, Thi Anh Huong Nguyen, Thanh Duc Mai, Motoyoshi Kobayashi, Yasuhisa Adachi
Environmental Chemistry 14 (5)Henri Bertin, Estefania Del Campo Estrada, Olivier Atteia
Environmental Chemistry 14 (3)Chunhong Nie, Pingping Sun, Lingyue Zhu, Simeng Gao, Hongjun Wu, Baohui Wang
Atmospheric short-chain-chlorinated paraffins in Melbourne, Australia – first extensive Southern Hemisphere observationsEnvironmental Chemistry 14 (2)Robert W. Gillett, Ian E. Galbally, Melita D. Keywood, Jennifer C. Powell, Gavin Stevenson, Alan Yates, Anders R. Borgen
Thermodynamic stability of mercury(II) complexes formed with environmentally relevant low-molecular-mass thiols studied by competing ligand exchange and density functional theoryEnvironmental Chemistry 14 (4)Van Liem-Nguyen, Ulf Skyllberg, Kwangho Nam, Erik Björn