23 December 2014
repost

Updated. Biosorption of metals. Publications (selected)

Updated. Biosorption of metals. Publications (selected)

http://5bio5.blogspot.com/2014/10/biosorption-of-metals-publications.html

Immobilization of chemical elements on biogenic materials, publications of a Moscow University researcher, Dr. Sergei A. Ostroumov, in English, Russian (selected):

1. Interaction of nanoparticles of gold with aquatic plant ...

scindeks.ceon.rs/article.aspx?artid=0354-32851057003O
by SA Ostroumov - ‎2010 - ‎Related articles
Ostroumov S.A.^a, Kolesov G.M.^b ... As a result of the binding and/or immobilizationof the nanoparticles, the amount of gold in the samples of the phytomass ...
2. [PDF]Водное хозяйство России
www.waterjournal.ru/files/0112_context_eng.pdf
Corresponding author, address: Ostroumov S.A., Moscow State University, ... Key words: copper, cadmium, aquatic microcosm, binding, immobilization, biomass ...
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· Immobilization of chemical elements, binding, and ... - 5bio5
5bio5.blogspot.com/.../immobilization-of-chemical-el...Translate this page
5 days ago - Immobilization Techniques. 52 ... 60-69 KoBSON Ostroumov, S.A., Kolesov, G.M. (2010) The aquatic macrophyte Ceratophyllum demersum ...

О типологии основных видов вещества в биосфере
www.chemjournals.net/eco/a/11_3/p179.pdfTranslate this page
by СА Остроумов - ‎2011 - ‎Cited by 3 - ‎Related articles
Ostroumov S.A.Biological Effects of Surfactants. CRC Press. Taylor & Francis: ... binding to immobilized biogenic materials in a flow- ing system. Advances in ...
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2013.grodno.saoet Al.new Experimental Data On Chemical ...
www.byteboss.com/view.aspx?id=811910...S.A...
S.A. Ostroumov, S.V. Kotelevtsev, V.M. Glaser, O.M. Gorshkova, Monique E. ... Immobilization of chemical elements by biogenic material was discovered and ...
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Regine H. S. F. Vieira, Boya Volesky. Biosorption: a solution to pollution? INTERNATL MICROBIOL (2000) 3:17–24. [Marine Science Institute-Labomar, Federal University of Ceará

Fortaleza, Ceará, Brazil; Department of Chemical Engineering,

McGill University, Montreal, Canada; boya@chemeng.lan.mcgill.ca]. Summary To solve the water pollution problem by toxic heavy metal contamination

resulting from humans technological activities has for long presented a challenge.

Biosorption can be a part of the solution. Some types of biosorbents such as seaweeds,

molds, yeasts, bacteria or crab shells are examples of biomass tested for metal

biosorption with very encouraging results. The uptake of heavy metals by biomass

can in some cases reach up to 50% of the biomass dry weight. New biosorbents can

be manipulated for better efficiency and multiple re-use to increase their economic

attractiveness.

Key words: Pollution · Biosorption · Biosorbents · Heavy metals · Decontamination

** book:
2011, Microbial Biosorption of Metals

Editors:
Pavel Kotrba,
Martina Mackova,
Tomas Macek
ISBN: 978-94-007-0442-8 (Print) 978-94-007-0443-5 (Online)

Editor Affiliations

Faculty of Food and Biochemical Technolo, Department of Biochemistry and Microbiol, Institute of Chemical Technology
Faculty of Food and Biochemical Technolo, Department of Biochemistry and Microbiol, Institute of Chemical Technology
Academy of Sciences of the Czech Rep., Institute of Organic Chemistry and Bioch, IOCB & ICT Joint Laboratory

Table of contents (13 chapters)

Front Matter

Pages 1-1
Download PDF (1255KB)
Book Chapter
Pages 1-6
Microbial Biosorption of Metals—General Introduction
Pavel Kotrba
Look Inside Get Access
Book Chapter
Pages 7-17
Potential of Biosorption Technology
Tomas Macek, Martina Mackova
Look Inside Get Access
Book Chapter
Pages 19-58
The Mechanism of Metal Cation and Anion Biosorption
Ghinwa Naja, Bohumil Volesky
Look Inside Get Access
Book Chapter
Pages 59-120
Equilibrium, Kinetic and Dynamic Modelling of Biosorption Processes
Francesca Pagnanelli
Look Inside Get Access
Book Chapter
Pages 121-141
Bacterial Biosorption and Biosorbents
Yeoung-Sang Yun, Kuppusamy Vijayaraghavan, Sung Wook Won
Look Inside Get Access
Book Chapter
Pages 143-158
Fungal Biosorption and Biosorbents
Thiruvenkatachari Viraraghavan, Asha Srinivasan
Look Inside Get Access
Book Chapter
Pages 159-178
Algal Biosorption and Biosorbents
Felisa González, Esther Romera, Antonio Ballester, María Luisa Blázquez…
Look Inside Get Access
Book Chapter
Pages 179-196
Removal of Rare Earth Elements and Precious Metal Species by Biosorption
Yves Andrès, Claire Gérente
Look Inside Get Access
Book Chapter
Pages 197-233
Biosorption and Metal Removal Through Living Cells
Pavel Kotrba, Martina Mackova, Jan Fišer, Tomas Macek
Look Inside Get Access
Book Chapter
Pages 235-247
Yeast Biosorption and Recycling of Metal Ions by Cell Surface Engineering
Kouichi Kuroda, Mitsuyoshi Ueda
Look Inside Get Access
Book Chapter
Pages 249-283
Bacterial Surface Display of Metal-Binding Sites
Pavel Kotrba, Lubomír Rulíšek, Tomas Ruml
Look Inside Get Access
Book Chapter
Pages 285-300
Immobilized Biosorbents for Bioreactors and Commercial Biosorbents
Pavel Dostálek
Look Inside Get Access
Book Chapter
Pages 301-320
Magnetically Responsive Biocomposites for Inorganic and Organic Xenobiotics Removal
Ivo Safarik, Katerina Horska, Mirka Safarikova
Look Inside Get Access
Biosorption is a general property of living and dead biomass to rapidly bind and abiotically ... Pavel Kotrba, Martina Mackova, Thomas Macek. Springer Science & Business Media, Jan 13, 2011 - TECHNOLOGY & ENGINEERING - 342 pages.

Article

Binding of heavy metals by algal biosorbents. Theoretical models of kinetics, equilibria and thermodynamics.

Wojciech Plazinski

J. Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences, ul. Niezapominajek 8, 30-239 Cracow, Poland. Electronic address: .

Advances in colloid and interface science (Impact Factor: 5.68). 04/2013; DOI: 10.1016/j.cis.2013.04.002

Source: PubMed

ABSTRACT Biosorption is an extensively studied technology applied for the removal of heavy metal ions and other pollutants from aqueous solutions. Most biosorption research is focused on the experimentally measured sorption isotherms, kinetics and thermodynamics. The aim of this paper is to review a class of theoretical models developed for the interpretation of such experimental data related to biosorption of metal cations by alginate-containing sorbents (e.g. algal biosorbents). The focus is put on: (i) modeling the biosorption equilibrium isotherms (including the description of the pH and ionic strength effects); (ii) thermodynamics of biosorption; (iii) kinetics of biosorption; and (iv) metal ion binding modes. This review facilitates the choice of the model suitable for the given type of data and describes the most common mistakes made during the data analysis (e.g. the use of incorrect or oversimplified models).

https://www.researchgate.net/publication/236922949_

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https://www.researchgate.net/publication/9078147_

Article

A review of the biochemistry of heavy metal biosorption by brown algae.

Thomas A Davis

Bohumil Volesky

Alfonso Mucci

Department of Chemical Engineering, McGill University, 3610 University Street, Que. H3A 2B2, Montreal, Canada.

Water Research (Impact Factor: 4.66). 12/2003; 37(18):4311-30. DOI: 10.1016/S0043-1354(03)00293-8

Source: PubMed

ABSTRACT The passive removal of toxic heavy metals such as Cd(2+), Cu(2+), Zn(2+), Pb(2+), Cr(3+), and Hg(2+) by inexpensive biomaterials, termed biosorption, requires that the substrate displays high metal uptake and selectivity, as well as suitable mechanical properties for applied remediation scenarios. In recent years, many low-cost sorbents have been investigated, but the brown algae have since proven to be the most effective and promising substrates. It is their basic biochemical constitution that is responsible for this enhanced performance among biomaterials. More specifically, it is the properties of cell wall constituents, such as alginate and fucoidan, which are chiefly responsible for heavy metal chelation. In this comprehensive review, the emphasis is on outlining the biochemical properties of the brown algae that set them apart from other algal biosorbents. A detailed description of the macromolecular conformation of the alginate biopolymer is offered in order to explain the heavy metal selectivity displayed by the brown algae. The role of cellular structure, storage polysaccharides, cell wall and extracellular polysaccharides is evaluated in terms of their potential for metal sequestration. Binding mechanisms are discussed, including the key functional groups involved and the ion-exchange process. Quantification of metal-biomass interactions is fundamental to the evaluation of potential implementation strategies, hence sorption isotherms, ion-exchange constants, as well as models used to characterize algal biosorption are reviewed. The sorption behavior (i.e., capacity, affinity) of brown algae with various heavy metals is summarized and their relative performance is evaluated.

https://www.researchgate.net/publication/9078147_

Metal ions binding onto lignocellulosic biosorbent - Taylor ...

www.tandfonline.com/doi/pdf/10.1080/10934520902847810

by KK Krishnani - ‎2009 - ‎Cited by 13 - ‎Related articles

Metal ions binding onto lignocellulosic biosorbent. K.K. KRISHNANI1, XIAOGUANG MENG2 and L. DUPONT3. 1Central Institute of Brackishwater Aquaculture, ...

Binding of heavy metals by algal biosorbents. Theoretical ...

www.ncbi.nlm.nih.gov/pubmed/23688631

by W Plazinski - ‎2013 - ‎Cited by 2 - ‎Related articles

Apr 22, 2013 - Binding of heavy metals by algal biosorbents. Theoretical models of kinetics, equilibria and thermodynamics. Plazinski W. Biosorption is an ...

Encyclopedia of Surface and Colloid Science -

books.google.ru/books?isbn=0824707575

Arthur T. Hubbard - 2002 - ‎Science

BIOSORPTION. Hideshi Seki Akira Suzuki Hokkaido University, Hokkaido, JapanBiosorption refers here to a physico-chemical binding of metal ions to biomass.

[PDF]binding of silver(i) ions by alfalfa biomass - Kansas State ...

https://www.engg.ksu.edu/HSRC/JHSR/v4_no1.pdf

by I Herrera - ‎2003 - ‎Cited by 22 - ‎Related articles

adsorption of Ag(I) ions in the pH range of 7 to 9 with a maximum adsorption capacity of 27.37 mg Ag•g-1 ..... Chemical Modification and Metal Binding Studies of.

[PDF]investigation of metal binding in alfalfa biomass through ...

https://www.engg.ksu.edu/hsrc/98Proceed/10Gardea1/10gardea1.pdf

by JL Gardea-Torresdey - ‎Cited by 22 - ‎Related articles

solutions, the mechanism of metal ion binding has yet to be fully understood. ...Biosorption or metal binding by inactivated biological materials occurs through ...

[PDF]

Biosorption of heavy metals - Centre for Ecological Sciences

wgbis.ces.iisc.ernet.in/energy/water/paper/biosorption/biosorption.htm

The search for new technologies involving the removal of toxic metals from wastewaters has directed attention to biosorption, based on metal binding capacities ...

Encyclopedia of Surface and Colloid Science, Second ...

books.google.ru/books?isbn=0849396158

P. Somasundaran - 2006 - ‎Science

INTRODUCTION Biosorption refers here to a physico-chemical binding of metal ions to biomass. It must be distinguished from metabolically driven active uptake ...

Опубликовано 5th October пользователем Dr Green

CookingFood.Org

23 December 2014 repost: Updated. Biosorption of metals. Publications (selected)