BOOKS
Activated Carbon Surfaces in
Environmental Remediation, Elsevier, Oxford, 2006.
RECENT PAPERS (2011)
1.
Effect of Graphite Features on the Properties of
Metal–Organic Framework/Graphite Hybrid Materials Prepared Using an in Situ
Process
Camille
Petit, Barbara Mendoza, Deanna O’Donnell, and Teresa J. Bandosz,
Langmuir27 (2011) 10234–10242
2.
Role of Zr+4 cations in NO2
adsorption on Ce1-xZrxO2 mixed oxides at
ambient conditions
Benoit
Levasseur ,AmaniEbrahim , and Teresa J Bandosz
Langmuir
27 (2011) 9379–9386
3.
Changes in graphite oxide texture and chemistry upon oxidation and
reduction and their effect on adsorption of ammonia
Mykola Seredych,
Joseph A. Rossin and Teresa
J. Bandosz
Carbon 49 (2011) 4392-4402.
4.
Template-free synthesis of silica ellipsoids
Henan Zhang, Teresa J. Bandosz and Daniel L. Akins
Chem. Commun. 47
(2011) 7791-7793
5.
Removal
of dibenzothiophenes from model diesel fuel on sulfur rich activated carbons
M.
Seredych and T.J. Bandosz
Applied
Catalysis B; Environmental 106 (2011) 133-141.
6.
Effect
of reduction treatment on copper modified activated carbons on NOx
adsorption at room temperature
Benoit
Levasseur, Eugene Gonzalez-Lopez, Joseph A. Rossin, and Teresa J. Bandosz
Langmuir
27 (2011) 5354-5365
7.
Synthesis, characterization and adsorption properties of MIL(Fe) -
graphite oxide composites: Exploring the limits of materials’ fabrication
C.
Petit and T.J. Bandosz
Adv.
Function. Mater. 21, 2011,
2108-2117.
8.
Enhancement
in Dibenzothiophene Reactive Adsorption from Liquid Fuel via Incorporation of
Sulfur Heteroatoms to the Nanoporous Carbon Matrix
M. Seredych, M. Khine, T. J. Bandosz
ChemSusChem
4 (2011) 139-147.
9.
Effect
of silver nanoparticles deposited on micro/mesoporous activated carbons on
retention of NOxat room
temperature
S.
Bashkova, D. Deoki, T J. Bandosz
J.
Coll. Interface Sci. 354 (2011) 331-340
10.
Reactive
adsorption of penicillin on activated carbons
Conchi
O. Ania, Joaquina G. Pelayo, Teresa J. Bandosz
Adsorption
17(2011)
421-429 .
11.
Reactive
Adsorption of Hydrogen Sulfide on Graphite oxide/Zr(OH)4 composites
M. Seredych and T.J. Bandosz
Chemical Eng. J. 166 (2011) 1032-1038.
PUBLICATIONS
1.
A Study of the Polish Sludged Kaolin
P. Wyszomirski, T. Bandosz and M. Zyla
Gospodarka Surowcami Mineralnymi 2,
(1986)
2.
A Study of Activity of the Kaolin in the Aspect its Application as a
Rubber Filler
T. Bandosz, S. Mocydlarz, St. Olkiewicz, A. Otowska, P. Wyszomirski and M. Zyla
Chemia Stosowana 31, 229 (1987).
3.
Montmorillonite from Milowice Intercalated with Hydroxy-Aluminum
Oligocations as Vapour and Gas Adsorbent
M. Zyla and T. Bandosz
Mineralogia Polonica 18, 30 (1987).
4.
Physico-Chemical Properties of the New Sorbent - Montmorillonite from
Milowice Intercalated with Hydroxy-Aluminum Oligocations
T. Bandosz, A. Gawel and M. Zyla
Chemia Stosowana 31, 217 (1987).
5.
Smectites Intercalated with Metal-Hydroxy Cations. Receiving, Physico-Chemical
Properties and Applications,
T. Bandosz
Wiadomosci Chemiczne 42, 707 (1988)
6.
Studies of the Chemical Character of the Surface of Smectite Intercalated
with Hydroxy-Aluminum Oligocations
T. Bandosz, J. Jagiello and M. Zyla
Chemia Stosowana 33, 189 (1991).
7.
Heat of Adsorption and Adsorption Energy of Ammonia on Smectite
Intercalated with Hydroxy-Chromium Oligocations as an Index of the Chemical
Character of the Surface
T. Bandosz, J. Jagiello and M. Zyla
Przemysl Chemiczny, (1991).
8.
Physicochemical Properties of the Montmorillonite from Milowice
Intercalated with Hydroxy-Chromium Oligocations
T. Bandosz and M. Zyla
Chemia Stosowana 33, 47 (1989).
9.
Montmorillonite from Milowice Intercalated with Hydroxy-Chromium
Oligocations as a New Vapour and Gas Adsorbent
M. Zyla and T. Bandosz
Przemysl Chemiczny, (1989).
10.
Sorption Properties, Porosity and Surface Character of the Intercalated
Smectites
T. Bandosz and M. Zyla
Zeszyty Naukowe AGH, (1991).
11.
Structural Parameters of Intercalated Smectite in the Light of Sorption
and Other Physico-Chemical Studies
T. Bandosz
Bulletin of The Polish Academy of Sciences
(Chemistry) 39, 167 (1991).
12.
A Comparative Study of the Main Properties of Montmorillonites
Intercalated with Aluminium and Chromium Hydroxycations
M. Zyla and T. Bandosz
Polish Journal of Chemistry 65, 674
(1991).
13.
Application of Inverse Gas Chromatography at Infinite Dilution to Study
the Effects of Oxidation of Activated Carbons
J. Jagiello, T. J. Bandosz and J. A. Schwarz
Carbon 30, 63 (1992).
14.
Thermodynamic Study of High Pressure Adsorption of Methane on Activated
Carbons: The Effect of Oxidation on Pore Structure and Adsorption Energy
Heterogeneity
J.Jagiello, P. Sanghani, T. J. Bandosz and J. A. Schwarz
Carbon 30, 507 (1992).
15.
Inverse Gas Chromatography Study of Activated Carbons: The Effect of
Controlled Oxidation on Microstructure and Surface Chemical Functionality
J. Jagiello, T. J. Bandosz and J. A. Schwarz
Journal of Colloid Interface Science 151,
433 (1992).
16.
A Comparison of Methods to Asses Surface Acidic Groups on Activated
Carbons
T. J. Bandosz, J. Jagiello and J. A. Schwarz
Analytical Chemistry 64, 892 (1992).
17.
Inverse Gas Chromatography Study of Modified Smectite Surfaces
T. J. Bandosz, J. Jagiello, B. Andersen and J. A. Schwarz
Clays and Clay Minerals 40, 306
(1992).
18.
Chemical and Structural Properties of Clay Minerals Modified by Inorganic
and Organic Material
T. J. Bandosz, J. Jagiello, K. A. G. Amankwah and J. A. Schwarz
Clay Minerals
27, 435 (1992).
19.
A Study of the Activity of Chemical Groups on Carbonaceous and Model
Surfaces by Means of Infinite Dilution Chromatography
J. Jagiello, T. J. Bandosz and J. A. Schwarz
Chromatographia 33, 441 (1992).
20.
Effect of Surface Chemical Groups on Energetic Heterogeneity of Activated
Carbons
T. J. Bandosz, J. Jagiello and J. A. Schwarz
Langmuir 9, 2518 (1993).
21.
Application of Inverse Gas Chromatography to the Study of the Surface
Properties of Modified Layered Minerals
T. J. Bandosz, K. Putyera, J. Jagiello and J. A. Schwarz
Microporous Materials 1, 73 (1993).
22.
Characterization of the Surfaces of Activated Carbons in Terms of the
Acidity Constant Distribution
T. J. Bandosz, J. Jagiello, C. Contescu and J. A. Schwarz
Carbon 31, 1193 (1993).
23.
Sorption Properties of Carbon Composite Materials Formed From Layered
Minerals
K. Putyera, T. J. Bandosz, J. Jagiello and J. A. Schwarz
Clays and Clay Minerals 42, 1
(1994).
24.
A Study of Carbon Microstructure Using Inverse Gas Chromatography
J. Jagiello, T. J. Bandosz, and J. A. Schwarz
Carbon 32, 668 (1994).
25.
Study of Carbon Smectite Composites and Carbons Obtained by Insitu
Carbonization of Polyfurfuryl Alcohol
T. J. Bandosz, K. Putyera, J. Jagiello, and J. A. Schwarz
Carbon 32, 659 (1994).
26.
Carbon Surface Characterization in Terms of its Acidity Constant
Distribution
J. Jagiello, T. J. Bandosz, and J. A. Schwarz
Carbon 32, 1026-1028 (1994).
27.
Adsorption Energy and Structural Heterogeneity of Activated Carbons
J. Jagiello, T. J. Bandosz, K. Putyera and J. A. Schwarz
in Characterization of Porous Solids III
(ed. J. Roquerol et al.) p. 679, Elsiever, Amsterdam 1994.
28.
Pore Structure of Carbon-Smectite Nanocomposites
T. J. Bandosz, S. Gomez-Salazar, K. Putyera, and J. A. Schwarz
Microporous Materials
3, 177 (1994).
29.
Characterization of Acidity of Pillared Clays by Proton Affinity
Distribution and DRIFT Spectroscopy
T. J. Bandosz, J. Jagiello, K. Putyera, and J. A. Schwarz
J.Chem. Soc. Faraday Trans. 90, 3573
(1994).
30.
Hydrotalcite-Like Structures as Molecular Containers for Preparation of
Microporous Carbons
K. Putyera, T. J. Bandosz, J Jagiello and J. A. Schwarz
Applied Clay Science 10, 177 (1995).
31.
Structural and Adsorption Properties of Carbons Synthesized within
Taeniolite Matrices.
T. J. Bandosz, J. Jagiello, K. Putyera, and J. A. Schwarz, J-N Rouzaud, I. Ben-Maimoun,
F. Beguin
J. Chem. Soc. Faraday Trans. 91, 493 (1995).
32.
Determination of Proton Affinity Distributions for Chemical Systems in
Aqueous Environments Using Stable Numerical Solution of the Adsorption Integral
Equation
J. Jagiello, T. J. Bandosz, K. Putyera and J. A. Schwarz
Journal of Colliod Interface Science
172, 1995, 341-346.
33.
Micropore Structure Development in Poly(Sodium-4-Styrenesulfonate)
Derived
Carbons.K. Putyera, J. Jagiello, T. J. Bandosz, J. A. Schwarz
Carbon, 33, 1047 (1995).
34.
Micropore Structure of Template Derived Carbons Using Adsorption of Gases
with Different molecular Diameters.
J. Jagiello, T. J. Bandosz, K. Putyera and J. A. Schwarz
J. Chem. Soc. Faraday Trans. 91, 2929,
(1995).
35.
Sieving Properties of Carbons Obtained by Template Carbonization of
Polyfurfuryl Alcohol within Mineral Matrices
T. J. Bandosz, J. Jagiello, K. Putyera, and J. A. Schwarz
Langmuir 11, 3964 (1995).
36.
Surface Acidity of Pillared Taeniolites in Terms of Their Proton Affinity
Distributions
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Journal of Physical Chemistry, 99,
13522 (1995).
37.
Adsorption Near Ambient Temperatures of Methane, Carbon Tetrafluoride and
Sulfur Hexafluoride on Commercial Activated Carbons,
J. Jagiello, T. J. Bandosz, K. Putyera and J. A. Schwarz
Journal of Chemical and Engineering Data
40, 1288 (1995).
38.
Sorption and Desorption of Lithium Ions from Activated Carbons
A. Seron, H. Benaddi, F. Beguin, E. Frackowiak, J.L. Bretelle, M. C. Thiry, T.
J. Bandosz, J. Jagiello and J. A. Schwarz
Carbon 34, 481 (1996).
39.
Surface Chemical Heterogeneity of Pillared Hydrotalcites
K. Putyera, J. Jagiello, T. J. Bandosz and J. A. Schwarz
Royal Chem. Soc. Faraday Trans. 92,
1243 (1996).
40.
Characterization of Microporous Carbons using Adsorption at Near Ambient
Temperatures
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Langmuir 12, 2837 (1996).
41.
Thermodynamically Consistent Analysis of Silica Surface Heterogeneity
Using Alkane
J. Jagiello, T. J. Bandosz, K. Putyera and J. A. Schwarz
Fundamentals of Adsorption, (ed.M.D.LeVan)
Kluwer:Boston, MA; 1996; p.417.
42.
Study of Nanocomposites Obtained by Carbonization of Different Organic
Precursors within Taeniolite Matrices
T. J. Bandosz, K. Putyera, J. Jagiello, and J. A. Schwarz
Clays and Clay Minerals 44, 237
(1996).
43.
Adsorption of Sulfur Hexafluoride and Propane at Temperatures Near
Ambient on Pillared Clays
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Journal of Chemical and Engineering Data
41, 880-884 (1996).
44.
Changes in Acidity of Pillared Taeniolites on Heat Treatment
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Royal Chem. Soc. Faraday Trans. 92,
4631-4636 (1996).
45.
Pore Structure of Carbon-Mineral Nanocomposites and Derived Carbons
Obtained by Template Carbonization
T. J. Bandosz, J. Jagiello, K. Putyera and J. A. Schwarz
Chemistry of Materials
8, 2023-2029 (1996)
46.
Effect of Template Constrains on Adsorption Properties of Synthetic
Carbons Prepared within the Gallery of layered Double Hydoxides.
K. Putyera, T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Carbon, 34, 1559-1569 (1996).
47.
A study of Acidity and Structure of Hydroxy-Cr Intercalated Bentonites
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
J. Colloid Interface Sci, 182, 570-577
(1996).
48.
Characterization of the Structure and Surface Acidity of Hydroxy-Cr
Taeniolites
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
J. Physical Chemistry
100, 15569-15574 (1996).
49.
Effect of Surface Chemistry on Sorption of Water and Methanol on
Activated Carbons
T. J.. Bandosz, J. Jagiello, A. Krzyzanowski and J. A. Schwarz
Langmuir, 12 6480-6486 (1996).
50.
Heterogeneity of Pillared Clays Studied by Adsorption of SF6
at Temperatures Near Ambient
J. Jagiello, T. J. Bandosz, J. A. Schwarz
Langmuir 13, 1010-1014 (1997).
51.
Effect of Mineral Host on Surface Acidity of Hydroxy-Cr Intercalated
Clays.
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Clays and Clay Minerals, 45, 110-113
(1997).
52.
Preparation and Characterization of the Pore Structure and Acidity of
Hydroxy-Cr Smectites
T. J. Bandosz, J. Jagiello, and J. A. Schwarz
Polish Journal of Chemistry, 71,
637-650 (1997).
53.
Changes in Acidity of Fe Pillared/Delaminated Smectites on Heat Treatment
T. J. Bandosz, K. Cheng
J. Colloid Interface Sci., 191,
456-463 (1997).
54.
Determination of the Pore Size Distribution and Network Connectivity in
Microporous Solids by Adsorption Measurements and Monte Carlo Simulation
V. Lopez-Ramon, J. Jagiello, T. J. Bandosz, N. A. Seaton
Langmuir, 13, 4435-4445 (1997).
55.
Analysis of Silica Surface Heterogeneity Using Butane and Butene
Adsorption Data
T. J. Bandosz
Journal of Colloid and Interface Science,
193, 127-131 (1997).
56.
Determination of Surface Changes in Active Carbons by Potentiometric
Titration and later Adsorption
T. J. Bandosz, B. Buczek, T. Grzybek, J. Jagiello
Fuel, 76, 1409-1417 (1997).
57.
Characterization of Microporous Carbons by Using Molecular Simulation to
Analyze The Adsorption of Molecules of Different Sizes
V. Lopez-Ramon, J. Jagiello, T. J. Bandosz, N. A. Seaton
Characterization of Porous Solids-IV,
(ed. J. Roquerol, et al.): The Royal Society of Chemistry, Cambridge, UK, 1997,
p. 73-80.
58.
Evaluation of Surface Properties of Exhausted carbons used as H2S Adsorbents in Sewage Treatment Plants
T. J. Bandosz, Q. Le
Carbon 36, 39-44 (1998).
59.
Porosity and Surface Acidity of SiO2-Al2O3
Xerogels
T. J. Bandosz, C. Lin, J. A. Ritter
Journal of Colloid and Interface Science,198,
347-353 (1998)
60.
Adsorption with Soft Adsorbents and Adsorbates. Theory and Practice.
G. F. Cerofolini, L. Meda, T. J. Bandosz
to appear in "Adsorption and Its Application in Industry and Environmental
Protection", Ed. A.Dabrowski, Elsevier, Amsterdam, 1998.
61.
Molecular Modeling of Selective Adsorption from Mixtures
T. J. Bandosz, F. J. Blas, K. E. Gubbins, C. L. McCallum, S. C. McGrother, S. L.
Sowers, L. F. Vega
MRS Symposium Proceedings, “Recent Advances in Catalytic Materials” ( N. M.
Rodriguez, S. L. Soled and J. Hrbek, eds.), Vol. 497, p. 231 (1998)
62.
Structural and Acidic Properties of Taeniolites Modified by Introduction
of Fe+3 Species
T. J.Bandosz
Polish
J. Chem., 72, 1202-1214 (1998).
63.
Virgin Activated Carbons as Adsorbents of Hydrogen Sulfide
T. J. Bandosz
Fundamentals of Adsorption-6, (ed. F.
Meunier); Elsevier,Paris, 1998,p.635-640
64.
Effect of Pore Structure and Surface Chemistry of Virgin Activated Carbon
on Removal of Hydrogen Sulfide
T. J. Bandosz
Carbon, 37, 483 - 491 (1999)
65.
Experimental Study of Water Adsorption on Activated Carbons
I. Salame, T. J. Bandosz
Langmuir, 15, 587-593 (1999)
66.
A Molecular Model for Adsorption of Water on Activated Carbons:
Comparison of Simulation and Experiment
C. L. McCallum, T. J. Bandosz, S. C. McGrother, E. A. Muller, K. E. Gubbins
Langmuir; 15, 533-544 (1999)
67.
Study of Water Adsorption on Activated Carbons with Different Degrees of
Surface Oxidation
I. Salame, T. J. Bandosz
J. Colloid Interface Sci.; 210,
367-374 (1999)
68.
An Improved Model for Adsorption of Water and Aqueous Mixtures on
Activated Carbons
T. J. Bandosz, K. E. Gubbins, C. L. McCallum, S. C. McGrother, E. A. Muller, S.
L. Sowers
Fundamentals of Adsorption-6, (ed. F.
Meunier).; Elsevier,Paris, 1998,p.213-218.
69.
Effect of Surface Characteristics of Wood Based Activated Carbons on
Removal of Hydrogen Sulfide
F. Adib, A. Bagreev, T.J. Bandosz
Journal of Colloid and Interface Science,
214, 407-415 (1999).
70.
Revisiting the Effect of Surface Chemistry on Adsorption of Water on
Activated Carbons
I.I. Salame, T. J. Bandosz
Journal of Physical Chemistry, 103,
3877-3884 (1999)
71.
Effect of pH and Surface Chemistry on the Mechanism of H2S
Removal by Activated Carbons.
F. Adib, A. Bagreev, T.J. Bandosz
Journal of Colloid and Interface Science, 216, 360-369 (1999).
72.
Initial Heats of H2S Adsorption on Activated carbons: Effect
of Surface Features
A. Bagreev, F. Adib , T. J. Bandosz
Jounal of Colloid and Interface Science,
219, 327-332 1999)
73.
Adsorption/Oxidation of Hydrogen Sulfide on Nitrogen Modified Activated
Carbons
F. Adib, A. Bagreev, T. J. Bandosz
Langmuir 16, 1980-1986 (2000)
74.
Surface Features of Wood Based Activated Carbons
I.I. Salame, T. J. Bandosz
Ind. Eng.Chem. Res., 39, 301-306
(2000)
75.
Analysis of the Relationship between H2S Removal Capacity and
Surface Properties of Unmodified Activated Carbons.
F. Adib, A. Bagreev, T.J. Bandosz
Environmental Science and Technology, 34,
686-692 (2000)
76.
Unmodified Versus Caustics Impregnated Carbons for Control of Hydrogen
Sulfide Emissions from Sewage Plants
T.J. Bandosz, A. Bagreev, F. Adib. A. Turk
Environmental Science and Technology,
34, 1069-1074 (2000).
77.
Surface Functionality and Porosity of Activated Carbons Obtained from
Chemical Activation of
Wood.
H. Benaddi, T.J. Bandosz, J. Jagiello, J.A. Schwarz, J.N. Rouzaud, D. Legras, F.
Beguin
Carbon 38, 669-674 (2000).
78.
Effect of Surface Chemistry and Pore Structure on Adsorption of Water and
CH3OH on Activated Carbons
I.I. Salame, T.J.Bandosz
Proceedings of the Second Conference on Adsorption Science and Technology, D.
Do, Ed. World Scientific, Hong-Kong, 2000, 61-65.
79.
Efect of Surface Chemistry on the Performance of Unimpregnated Activated
Carbons as H2S Adsorbents.
F. Adib, A. Bagreev, T.J. Bandosz
Proceedings of the Second Conference on Adsorption Science and Technology, D.
Do, Ed. World Scientific, Hong-Kong 2000, .56-60.
80.
Adsorption of Water and Methanol on Micro- and Mesoporous Wood-Based
Activated Carbons
I.I. Salame, T. J. Bandosz
Langmuir,16, 5435-5440 (2000)
81.
On the Possibility of Regeneration of Unimpregnated Activated Carbons
used as Hydrogen Sulfide Adsorbents
F. Adib, A. Bagreev, and T.J. Bandosz
Ind. Eng. Chem. Res 39, 2439-2446
(2000)
82.
Study of Hydrogen Sulfide Adsorption on Activated Carbons Using Inverse
Gas Chromatography at Infinite Dilution
A. Bagreev, T.J. Bandosz
J. Phys.Chem. 104, 8841-8846 (2000).
83.
Study of H2S Adsorption and Water Regeneration of
Coconut-Based Activated Carbon
A. Bagreev, H.Rahman, and T.J. Bandosz
Env. Sci. Tech., 34, 4587-4592 (2000).
84.
Wood-Based Activated Carbons as Adsorbents of Hydrogen Sulfide: A study
of adsorption and Water Regeneration Process
A. Bagreev, H. Rahman, T.J.
Bandosz
Ind.Eng.Chem. Res. 39,
2439-2446 (2000)
85.
Adsorption Systems for Odour Treatment
A. Turk, T.J. Bandosz
In Odours in Wastewater Treatment: Measurement, Modeling and Control: Stuez, R.
and Frechen, F-B. Eds.: IWA, p. 354-364, IWA Publishing, London, 2000.
86.
Biofiltering Action on Hydrogen Sulfide by Virgin Activated Carbon in
Sewage Treatment.
T. J. Bandosz, S. Askew, W. Kelly, A. Bagreev, F. Adib, A. Turk
Water Science and Technology
42, 399-401 (2000).
87.
Sewage Sludge Derived
Materials as Efficient Adsorbents for Removal of Hydrogen Sulfide
A. Bagreev, S. Bashkova, D.C. Locke and T.J. Bandosz
Environ.
Sci. Technol.,
35, 1537-143 (2001).
88.
The Sulfur Problem: Cleaning Up Industrial Feedstocks. By Diane Stirling
(University of Glasgow). Royal Society of Chemistry: Cambridge. 2000. x+ 94 pp.
55.00 pounds. ISBN: 0-85404-541-4. (Book Review)
T. J. Bandosz
Journal of American Chemical Society,
123, 516 (2001).
89.
Thermal Regeneration of Spent Coconut –Based Activated Carbon
Previously used As Hydrogen Sulfide Adsorbent
A. Bagreev, H. Rahman, T.J. Bandosz
Carbon 39, 1319-1326 (2001).
90.
Adsorption of SO2 on Sewage Sludge-Derived Materials
S. Bashkova, A. Bagreev, D.C. Locke and T.J. Bandosz
Environ.
Sci. Technol.,
35, 3263-3269 (2001).
91.
Water in Porous Carbon
J.K. Brennan, T.J. Bandosz, K.T. Thomson, K.E. Gubbins
Colloids and Surface A : Physicochemical
and Engineering Aspects, 187-188, 539-568 (2001).
92.
H2S Adsorption/Oxidation on Adsorbents Obtained from
Pyrolysis of Sewage Sludge-Derived Fertilizer Using Zinc Chloride Activation
A. Bagreev, T.J. Bandosz
Ind. Eng. Chem Res. 40, 3502-3510
(2001).
93.
Study of Diethyl Ether Adsorption on Activated Carbons using IGC
at Finite Concentration.
I.I.Salame, T. J. Bandosz.
Langmuir 17, 4967-4972 (2001)
94.
Surface Chemistry of Activated Carbons: Combining the Results of
Temperature Programmed Desorption, Boehm and Potentiometric Titrations
I.I. Salame, T. J. Bandosz.
J. Colloid Interface Sci., 240,
252-258 (2001).
95.
pH of the Activated Carbon Surface as an Indication for its Suitability
for Removal of Hydrogen Sulfide from Wet Air Streams
A. Bagreev, F. Adib, and T.J. Bandosz
Carbon, 39, 1987-1905 (2001).
96.
H2S Adsoprtion/Oxidation on Unmodified Activated carbons:
Importance of Prehumidification
A. Bagreev, T.J. Bandosz
Carbon, 39, 2303-2311 (2001)
97.
Pore Structure and Surface Chemistry of Adsorbents Obtained by
Pyrolysis of Sewage Sludge-Derived Fertilizer
A. Bagreev, D.C. Locke and T.J. Bandosz
Carbon, 39, 1971-1978 (2001).
98.
A Study of Acetaldehyde Adsorption on Activated Carbon
Y. El-Sayed, T.J. Bandosz
J. Coll. Interface Sci., 242, 44-51
(2001).
99.
On the Adsorption/Oxidation of Hydrogen Sulfide on Unmodified Activated
Carbon at Temperatures Near Ambient.
T.J. Bandosz
J. Colloid Interface Science, 246,
1-20 (2002).
100.
Inverse Gas Chromatography at Infinite Dilution as a method to
Determine the Structural and Chemical features of Activated carbon Surfaces
T.J.Bandosz
Encyclopedia of Colloid and Interface
Science, A. Hubbard Ed., M. Decker, in press.
101.
A Role of Sodium Hydroxide in the Process of Hydrogen Sulfide
Adsorption/Oxidation on Caustic-Impregnated Activated Carbons
A. Bagreev and T.J. Bandosz
Ind. Eng. Chem. Res. 41, 672-679
(2002).
102.
Adsorption of SO2 on Activated carbons: the Effect of
Nitrogen Functionality and Pore Sizes
A.Bagreev, S. Bashkova, and
T.J. Bandosz
Langmuir, 18, 1257-1264 (2002).
103.
Sewage Sludge Derived materials as Adsorbents for H2S and SO2
A.Bagreev, S. Bashkova, D.C. Locke and T.J. Bandosz
Fundamentals of Adsorption -7, K. Kaneko, H. Kanoh, Y. Hanzawa Eds., IK
International, Chiba, Japan, p. 239-246, 2002.
104.
Acetaldehyde Adsorption on Nitrogen-Containing Activated Carbons
Y. El-Sayed, T.J. Bandosz,
Langmuir18, 3213-3218 (2002).
105.
Adsorption of Methyl Mercaptan on Activated Carbons.
S. Bashkova, A. Bagreev, T.J. Bandosz
Environ Sci. Technol., 36, 2777-2782
(2002).
106.
Acidic Cloud Episodes in The Northen Colorado Rockies: Inadvertent
Weather Modification?
E. E. Hindman, M. C. Meyer, D. Gedzelman, T. J. Bandosz
J. Wea. Modif. 34, 18-30 (2002).
107.
H2S Adsorption/Oxidation on Materials Obtained using
Sulfuric Acid Activation of Sewage Sludge Derived Fertilizer
A. Bagreev and T. J. Bandosz
J. Colloid Interface Sci., 252,
188-194 (2002)
108.
Interactions of Water, Methanol and Diethyl Ether Molecules with the
Surface of Oxidized Activated Carbon
I.I.Salame, T. J. Bandosz Molecular
Physics, 100, 2041-2048 (2002)
109.
Study of Regeneration of Activated Carbons Used as H2S
Adsorbents in Water Treatment Plants.
A. Bagreev, H. Rahman, T.J.
Bandosz
Advances in Environmental Research, 6,
303-311 (2002).
110.
Structure Models of Porous Carbons
T.J. Bandosz, M. Briggs, K.E. Gubbins, K. Kaneko, K. Thomson
In Chemistry and Physics of Carbon, Vol.
29, L. Radovic, Ed. Marcel Dekker, New York, 2003
111.
Influence of Organics on Structure of Water Adsorbed on Activated Carbons
V. V. Turov, V.M. Gun'ko, R. Leboda, J. Skubiszewska-Zieba, D. Palijczuk"
T.J.Bandosz, Tomaszewski, and S. Zietek
J. Colloid Interface Sci., 253, 23-34
(2002)
112.
Effect of Surface Characteristics on Adsorption of Methyl Mercaptan on
Activated Carbons
S. Bashkova , A. Bagreev, T. J. Bandosz
Ind. Chem Eng. Res. 41, 4346-4352
(2002).
113.Heterogeneity
of Sewage Sludge Derived Materials as a Factor Governing their Performance as
Adsorbents of Acidic Gases
A. Bagreev, S. Bashkova, B. Reznik, V. Zibat, and T J. Bandosz
Proceeding of Conference on Characterization of Porous Solids-6 (Studies in
Surface Science and Catalysis 144), F. Rodriguez-Reinoso et al., Ed. Elsevier,
Amsterdam, 2003, p.217-224.
1146.
An IGC and T A Study of Acetaldehyde Adsorption on Activated Carbons
Y. EI-Sayed and T.J. Bandosz
Proceeding of Conference on Characterization of Porous Solids-G, F. Rodriguez-Reinoso,
Ed. Amsterdam, 2003, p.49-254.
115.
Dual Role of Water in the Process of Methyl Mercaptan Adsorption on
Activated Carbons
A. Bagreev, S. Bashkova, and T J. Bandosz
Langmuir 18, 8553-8559 (2002).
116
Role of Surface Chemistry in Adsorption of Phenol on Activated Carbons
I.I. Salame and T. J. Bandosz
J. Colloid Interface Sci., 264,
307-312 (2003)
117
Adsorption/Oxidation of CH3SH on Activated Carbons Containing
Nitrogen
S. Bashkova, A. Bagreev, and T. J. Bandosz
Langmuir 19, 6115-6121 (2003).
118.
Effect of Transition Metal Cation on Adsorption of H2S on
Modified Pillared Clays
D. Nguyen-Thanh and T.J. Bandosz
J. Phys. Chem. 117, 5812-5817 (2003).
1191.
Heterogeneity of Adsorption Energy of Water, Methanol and Diethyl Ether
on Activated Carbons: Effect of Porosity And Surface Chemistry
V. Gun'ko, T. J. Bandosz
Physical Chemistry Chemical Physics, 5
, 2096-2103 (2003).
120.
Effect of Increased Basicity of Activated Carbon Surface on Valeric Acid
Adsorption from Aqueous Solution.
Y. EI-Sayed, (GS) T.J. Bandosz
Physical Chemistry Chemical Physics,5,
4892-4898 (2003).
121.
Efficient Desulfurization Adsorbents Obtained by Pyrolysis of Sewage
Sludge Derived Fertilizer Modified With Spent Mineral Oil
A. Bagreev and T. J. Bandosz
Environ. Sci. Technol
38, 345-351 (2004).
122.
Bituminous Coal- Based Activated Carbons Modified with Nitrogen as
adsorbents of Hydrogen Sulfide
Bagreev, J.A. Menendez, I. Dukhno, Y. Tarasenko, and T. J. Bandosz
Carbon, 42, 469-476 (2004).
123.
Surface Properties of Porous Carbon Obtained From Polystyrene Sulfonic
Acid-Based Organic Salts
D. Hines, A. Bagreev, and T. J. Bandosz
Langmuir , 20, 3388-3397 (2004).
124.
Adsorption of Valeric Acid from Aqueous Solutions on Activated carbons;
Role of Surface Basic Sites
Y. EI-Sayed, and T. J. Bandosz
J. Coll. Interlace Sci., 273, 64-72
(2004).
125.
Role of Surface Oxygen Groups in Incorporation of Nitrogen to Activated
Carbons via Ethylmethylamine Adsorption
Y. Elsayed and T.J. Bandosz
Langmuir, 21(4) 1282-1289 (2005)
126.
Adsorption of Hydrogen Sulfide on Motmorillonites Modified with Iron
D. Nguyen-Tanh and T .J. Bandosz
Chemosphere 59, 343-353 (2005).
127.
Adsorption of Methyl Mercaptan on Nitrogen Modified Bituminous Coal-Based
Activated Carbon
A. Bagreev, J.A. Menendez, I. Dukhno, Y. Tarasenko, and T. J. Bandosz
Carbon, 3, 208-210 (2005)
1280.
A Study of Ignition of Metal Impregnated Carbons: the Influence of Oxygen
Content in the Activated Carbon Matrix
M. Van Der Merwe, and T. J. Bandosz
J. Colloid and Interface Science, 282,
102-108 (2005).
129.
Catalytic Properties of Activated Carbon Surface in The Process of
Adsorption/Oxidation Of Methyl Mercaptan
S. Bashkova, A. Bagreev, and T.J. Bandosz
Catalysis Today, 99, 323-328(2005).
130.
Desulfurization of Digester Gas: Prediction of Activated Carbon Bed
Performance at Low Concentrations of Hydrogen Sulfide
A. Bagreev, S. Katikaneni, S. Parab and T. J. Bandosz
Catalysis Today,
99 329-337 (2005).
131.
Activated Carbons With Metal Containing-Clay Binders as Adsorbents of
Hydrogen Sulfide
Danh Nguyen-Tanh and T.J.Bandosz
Carbon, 43, 359-367 (2005)
132.
Effect of Adsorbent composition on H2S Removal on Sewage
Sludge-Based Materials Enriched with Carbonaceous Phase
Adil Ansari, A. Bagreev and T.J. Bandosz
Carbon, 43(2) 359-367 (2005)
133.
Heterogeneity of Adsorption Energy of Water, Methanol and Diethyl Ether
on Activated Carbons: Effect of Porosity and Surface Chemistry
V. Gun’ko And T.J. Bandosz
Adsorption, 11, 97-102 (2005)
134.
Predictions of H2s Breakthrough Capacity of Activated Carbons
at Low Concentrations of Hydrogen Sulfide
Bagreev. W. Kuang And T.J. Bandosz
Adsorption11, 461-466 (2005).
135.
Adsorption of Inorganic Gases and VOCs on Activated Carbons
Teresa J.Bandosz
In Adsorption by Carbons, J. Tascon ,
Ed.; Elsevier, in press
136.
On the Mechanism of Hydrogen Sulfide Adsorption/Oxidation on Catalytic
Carbons
Andrey
Bagreev and Teresa J.Bandosz
Ind.
Chem. Eng. Res44, 530-538 (2005)
137.
Adsorption of Dibenzothiophene from Liquid Phase by
Activated Carbons
Conchi
O. Ania and Teresa J. Bandosz
ACS Proceedings,
Fuel Div. 2005; 50 (1).
138.
Mesoporous
carbons obtained from polystyrene sulfonic acid-based organic salts by
template carbonization method.
Conchi
O. Ania and Teresa J. Bandosz.
ACS Proceedings, Fuel Div. 2005;
50 (1).
139.
Inorganic-Organic Phase Arrangement as a factor Affecting Gas Phase
Desulfurization on catalytic Carbonaceous Adsorbents
Adil
Ansari and Teresa J. Bandosz
Environ.
Sci. Technol, 39, 6225-6230 (2005).
140.
Enrichment of the Performance of Activated Carbons as Municipal Odor
removal Media by Addition of Sewage Sludge Derived Phase
Evilambia
Sioukri and Teresa J. Bandosz
Environ.
Sci. Technol. 39, 6217-6224 (2005).
141.Importance
of Structural and Chemical heterogeneity of Activated carbon Surfaces for
Adsorption of dibenzothiophene.
Conchi
O. Ania and Teresa J. Bandosz
Langmuir,
21, 7752-7759 (2005).
142.
Gas Adsorption Equilibria: Experimental methods and Adsorptive Isotherms.
By Jurgen U. Keller and Reiner Straudt (Universtat Siegen). Springer: New York
2005.xiv +442pp.$ 139.00 IBN 0-387-23597-3.
Teresa
J. Bandosz
Journal
of American Chemical Society. 127, 7655 (2005).
143.
Chemically Modified Nanoporous Carbons Obtained Using Template Carbonization
Method
Conchi
O. Ania and T. J.
In
Fundamentals of Adsorption 7; P. Levelly Ed., Elsevier, Amsterdam 2006.
144
Nanoporous Carbons
With Highly Dispersed Metals Obtained Using
Template Carbonization Method
Conchi
O. Ania and T. J. Bandosz
Microporous
and Nanoporous Materials,
89, 315-324 (2006)
145.
Adsorption of Ethylmethylamine Vapor by Activated Carbon Filters
Yehya
El-Sayed, Teresa J. Bandosz, Hilda Wullens and Peter Lodewyckx
Ind.
Chem. Eng. Res. 45, 1441-1445 (2006)
146.
Metal-Loaded polystyrene based activated
carbons as DBT removal media via reactive adsorption.
Conchi.O.
Ania and Teresa J. Bandosz
Carbon,
44, 2404-2412
1479.Removal
of Dibenzothiophene From Tetradecane using Catalytic Photoxidation on Tio2/Hectorite
Thin Films Layered Catalyst
Jamie
Robertson and T. J. Bandosz
J.
Colloid Interface Science,
299, 125-135 (2006)
148.Sewage
Sludge as a Single Precursor for Carbon Nanostructure/Activated Carbon/Catalytic
Oxide Composite
Mykola
Seredych and Teresa J. Bandosz
Chemical
Engineering Journal: Environmental, in press
149. Carbonaceous materials as desulfurization media.
Teresa
J. Bandosz
In
Combined and Hybrid Adsorbents:
Fundamentals and Applications
M.
Kartel, J-M. Loureiro, Eds. Springer,
New York, 2006
150. Metal-Loaded Carbonaceous Adsorbents Templated
From Porous Clay Heterostructures
Danh
Nguyen-Tanh and Teresa J. Bandosz
Microporous
and Mesoporous Materials, 92, 47-55 (2006)
151.
Municipal Sludge- Industrial Sludge Composite Desulfurization Adsorbents:
Synergy Enhancing The Catalytic Properties
Teresa
J. Bandosz and Karin Block
Environ.
Sci. Technol., 40(10), 3378-3383 (2006)
152.
Desulfurization of Digester Gas On Catalytic Carbonaceous Adsorbents: Complexity
of Interactions Between The Surface and Components of The Gaseous Mixture
Mykola
Seredych and Teresa J. Bandosz
Ind.
Chem. Eng. Res., in press
153.
Removal of Hydrogen Sulfide on Composite Sewage Sludge-Industrial
Sludge-Based Adsorbents
Teresa
J. Bandosz and Karin Block.
Ind.
Chem. Eng. Res., 45(10) 3666-3672 (2006)
Conchi.
O. Ania and Teresa J. Bandosz
Energy
and Fuels, 20(3) 1076-1080 (2006)
155.
Effect of Pyrolysis Temperature and Time on Catalytic Performance of
Sewage/Industrial Sludge Based Composite Adsorbents.
Appl.
Catal. , 67, 77-85 (2006).
156.Industrial/Municipal Sludge Based Composite Adsorbents As Media For Heavy
Metal And Dye Removal
Proceedings
of ACS 231 Annual Meeting, Fuel Division, 51, 2006.
157.
Desulfurization of digester gas on carbonaceous adsorbents: effect of
surface chemistry and moist air exposure
M.
Seredych and T. J. Bandosz
Proceedings
of ACS 231 Annual Meeting, Fuel Division, 51, 2006.
158.
High porosity carbonaceous adsorbents templated from Porous clay
heterostructure
Proceedings
of ACS 231 Annual Meeting, Fuel Division, 51, 2006.
159.
Desulfurization of air on sewage sludge/industrial sludge based
adsorbents
T.
J. Bandosz and K. Block
Proceedings
of ACS 231 Annual Meeting, Fuel Division, 51, 2006.
160.
Removal of DBT on metal containing carbonaceous adsorbents
C.
O. Ania and T. J. Bandosz
Proceedings
of ACS 231 Annual Meeting, Fuel Division, 51, 2006.
161.
Surface chemistry of activated carbons and its characterization
Ania,
C. O. and Bandosz, T. J.
Bandosz,
T. J. Ed. pp. 159-230. Elsevier, 2006.
162.
Desulfurization on activated carbons,
T.
J. Bandosz
In
“Activated Carbon Surfaces in
Environmental Remediation”, Bandosz, T. J. Ed. , pp. 231-292, Elsevier,
2006.
163.
Removal of copper on composite sewage sludge/industrial sludge-based adsorbents:
The role of surface chemistry
M.
Seredych, T.J. Bandosz
J. Coll. Interface Sci, 302,
379-388 (2006).
164.
On
the utilization of industrial/municipal sludges as a source of desulfurization
adsorbents
T.
J. Bandosz
Annales
Univeristatis Mariae Curie-Sklodowska: Chemia, LXI, 3-24 (2006)
165.
Template-derived
mesoporous carbons with highly dispersed transition metals as media for reactive
adsorption of dibenzothiophene
Mykola Serdych and Teresa J. Bandosz
Langmuir
23 6033-6041 (2007)
166.
Sewage
Sludge as a Single Precursor for Carbon Nanostructure/Activated Carbon/Catalytic
Oxide Composite
Mykola
Seredych and Teresa J. Bandosz
Chemical Engineering Journal: Environmental,
128, 59-67 (2007)
167.
Surface properties of porous
carbons obtained from polystyrene -based polymers within inorganic templates:
role of polymer chemistry and inorganic template pore
structure
M.Seredych,
T.J, Bandosz
Microporous and Mesoporous Materials,
100, 45-54 (2007)
168.
The role of water and surface
acidity on the reactive adsorption of ammonia on modified activated carbons
L-M
Le Leuch, T.J. Bandosz,
Carbon, 45, 568-578 (2007).
169.
On
the removal of cationic and ionic dyes on industrial-municipal sludge based
composite adsorbents
M.
Seredych, T.J. Bandosz
Ind.Chem, Ing. Res., 46
(6) 1786-1793 (2007)
170.
Phase
interactions during pyrolysis as a factor governing surface activity of
desufurization adsorbents derived from tobacco waste/industrial sludges
M.
Seredych and T.J. Bandosz
Environ. Sci. Technol., 41 (10) 3715-3721 (2007).
171.
On the mechanism of reactive adsorption of dibenzothiophene on
organic waste derived carbons
C.O.
Ania, J.B. Parra, A. Arenillas, F. Rubiera, T.J. Bandosz, J.J. Pis
Applied Surface Science, 253, 5899-5903 (2007).
172.
Slica-polymaine
based-carbon composite adsorbents as media for effective hydrogen sulfide
adsorption/oxidation
Chem.
Mater. 19, 2500-2511 (2007).
173.
Desulfurization
of digester gas on industrial
sludge-derived adsorbents
M.
Seredych and T.J. Bandosz
Energy and Fuels, 21. 858-866 (2007).
174.
Removal of hydrogen sulfide from
biogas on sludge derived adsorbents
W.
Yuan, T. J. Bandosz
Fuel,
86, 2736-2746 (2007)
175.Removal
of ammonia by graphite oxide via its
intercalation and reactive adsorption
Mykola Seredych and Teresa J. Bandosz
Carbon, 45
2130-2132 (2007).
176.
Interactions of ammonia with the surface of microporous carbon impreganted with
transition metal chlorides
Camille Petit, Christopher Karwacki, Greg
Peterson, Teresa J. Bandosz
J Phys. Chem.
111, 12705-12714 (2007).
177.
Role of graphite oxide and polyaniline
in NO2 reduction on GO-PANI composites
Mykola Seredych, Robert Pietrzak and
Teresa J. Bandosz
Ind. Chem. Eng. Res., 46, 6925-6936
(2007).
178.
Role of aluminium oxycations in retention of ammonia on modified activated
carbons
J.
Phys. Chem.
111, 16445-16452 (2007)
179.
Reactive adsorption of NO2 at dry conditions on sewage sludge derived
materials
Robert
Pietrzak, Teresa J. Bandosz
Environ.
Sci. Technol.,
41, 7516-7522 (2007)
180.
The mechanism of ammonia retention on graphite oxides: role
of surface chemistry and structure
Mykola
Seredych and Teresa J. Bandosz
J.Phys.Chem..
111, 15596-15604 (2007)
181.Activated
Carbons Modified with Sewage Sludge Derived Phase and their Application in the
Process of NO2 Removal
R.
Pietrzak and T. J. Bandosz
Carbon,
45, 2537-2546
(2007)
182.
Role
of oil derived carbonaceous phase in the performance of sewage sludge based
materials as media for desulfurizaton of digester gas
Karifala
Kante, Jason Qiu, Zhongbin Zhao, Yu Chang, Teresa J. Bandosz
Applied
Surface Science, 254 (2008) 2385-2395.
183.
Effect
of fly ash addition on the removal of hydrogen sulfide from biogas and air on
sewage sludge-based composite adsorbents
Mykola Seredych, Christien Strydom, Teresa J. Bandosz
Waste
Management 28 (2008) 1983-1992.
184.
Effect
of ozonolysis on the pore structure, surface chemistry, and bundling of
single-walled carbon nanotubes
Tirandai
Hemraj-Benny, Teresa J. Bandosz, and Stanislaus S. Wong
J.
Coll. Interface Sci.317, 375-382 (2008)
185.
Development
of surface porosity and catalytic activity in metal sludge waste oil derived
adsorbents: effect of heat treatment.
Karifala
Kante, Jason Qiu, Zhongbin Zhao, Yu Chang, Teresa J. Bandosz
Chemical
Engineering Journal 138 (2008) 155-165.
186.
Sewage
sludge/metal sludge/ waste oil composites as catalysts for desulfurization of
digester gas
Karifala
Kante and T.J. Bandosz
Energy
and Fuels 22 (2008) 389-397.
187.
Role
of microporosity and nitrogen functionality on the surface of activated carbon
in the process of desulfurization of digester gas
M.
Seredych and T. J. Bandosz
J.
Phys. Chem. C. 11 (2008) 4704-4711.
188.
Activated
carbon modified with aluminum-zirconium polycations as adsorbents of ammonia
Camille Petit and T. J. Bandosz
Micro.
Meso. Mat. 114 (2008) 137-147.
189.
Desulfurization
of digester gas on wood based activated carbons modified with nitrogen:
importance of surface chemistry
Mykola
Seredych and T. J. Bandosz
Energy
and Fuels 22 (2008) 850-855.
190.
Role
of microporosity and nitrogen functionality on the surface of activated carbon
in the process of desulfurization of digester gas
Mykola
Seredych and T. J. Bandosz
J.
Physical Chemistry C 112 (2008) 4704-4711.
191.
Interactions
of NO2 with sewage sludge based composite adsorbents
Robert
Pietrzak and T.J. Bandosz
J.
Haz.Mat. 154 (2008) 946-953.
192.
Investigation
of the role
of surface
chemistr
and
accessibility
of cadmium
adsorption
sites
on open-surface
carbonaceous
materials
Zhanming
Gao, Teresa J. Bandosz, Zongbin Zhao, Mei Han, Changhai Liang,Jieshan
Qiu
Langmuir
24 (2008) 11701-1170.
193.
Removal
of ammonia from air on molybdenum and tungsten oxide modified activated carbons
C. Petit and T. J. Bandosz
Environ. Sci.
Technol. 42 (2008) 3033-3039.
194.
Adsorption
of ammonia on graphite oxide / aluminum polycation and
graphite oxide/zirconium polyoxycations composites
Mykola
Seredych and T. J. Bandosz
J.
Colloid Interface Sci. 324 (2008) 25-35
195.
Surface
features of exfoliated graphite/smectite composites and their importance for
ammonia adsorption
Mykola
Seredych, Albert V. Tamashausky, and Teresa J.
Bandosz
Carbon
46 (2008) 1241-1252
196.
Complexity
of ammonia interactions on activated carbons modified with V2O5
Camille Pettit and Teresa J. Bandosz
J.Coll.
Interface Sci.325 (2008) 310-318.
197.
Surface functional groups of carbons and the effects of their
chemical character, density, and accessibility to ions on electrochemical
performance
Mykola
Seredych, Denisa Hulicova-Jurcakova, Gao Qing Lu, Teresa J. Bandosz
Carbon
46 (2008) 1475-1488.
198.
Adsorption
of NO2 on activated carbons modified with cerium, Lanthanum and
sodium chlorides.
Karifala Kante, Eleni Deliyanni, Teresa J. Bandosz,
J.
Hazard. Mat. 165 (2008) 357-365.
2200.
MOF-graphite
oxide nancomposites: surface characterization and evaluation as adsorbents of
ammonia
C. Petit And T.
J. Bandosz
J. Mater. Chem.
19 (2009) 6521-6528.
201.
Desulfurization
of air at high and low H2S concentrations
Y. Elsayed, M.
Seredych, A. Dallas, T. J. Bandosz
Chemical
Engineering Journal, Environmental 155 (2009) 594-602.
202.
Enhanced
adsorption of ammonia on metal-organic framework / graphite oxide composites:
analysis of surface interactions
C. Petit And T.
J. Bandosz
Adv. Funct.
Mater. 19 (2009) 1-8
203.
Investigation
of factors affecting adsorption of transition metals on oxidized carbon
nanotubes
Gao,
Z., Bandosz, T.J., Zhao, Z., Han, M., Qiu, J.
Journal of
Hazardous Materials 167 (2009) 357-365.
204.
Adsorption/reduction of NO2 on graphite oxide/iron
composites
S.
Bashkova, T.J. Bandosz
Ind.
Chem. Eng. Res. 48 (2009)
10884–10891
205.
Revisiting
the chemistry of graphite oxides and its effect on ammonia adsorption.
206.
Adsorption
of hydrogen sulfide on graphite derived materials modified by incorporation of
nitrogen
M. Seredych, T. B. Bandosz.
Mat.
Chem. Phys. 113 (2) (2009) 946-952.
207.
Combined effect
of nitrogen- and oxygen-containing functional groups of microporous activated
carbon on its electrochemical performance in supercapacitors
Denisa
Hulicova-Jurcakova, Mykola Seredych, Gao Qing Lu, Teresa J. Bandosz
Advanced
Functional Materials 18 (2009) 1-10.
208.
Role
of graphite precursor in the performance of graphite oxides as ammonia
adsorbents
Mykola
Seredych, Camille Petit, Albert V. Tamashausky,
and Teresa J. Bandosz
Carbon
47 (2009) 445-456.
209.
Nitrogen
modified carbide derived carbons as adsorbents of hydrogen sulfide
Mykola Seredych. CristellPortet, YuryGogotsi, Teresa J. Bandosz
J.
Colloid Interface Sci. 330 (2009) 60-66.
210.
The
effects of urea modification and heat treatment on the process of NO2
removal by wood-based activated carbon
S.
Bashkova, and T. J. Bandosz
J.
Colloid Interface Sci. 333 (2009) 97-103.
211.
Graphite
oxide/polyoxometalate nanocomposites as adsorbents of ammonia
Camille Petit and Teresa J. Bandosz
J. Phys. Chem.
113 (2009)
3800–3809
212.
Textural
and chemical factor affecting adsorption capacity of activated carbons in highly
efficient desulfurization of diesel fuel.
M. Seredych, J. Lison. U. Jans, T.J. Bandosz
Carbon 47 (2009) 2491 –2500.
213.
Effects
of surface chemistry on the reactive adsorption of hydrogen cyanide on activated
carbons.
Mykola
Seredych, Martin van derMerwe and Teresa J. Bandosz
Carbon
47 (2009) 2456-2465.
214.
Effect
of surface phosphorus functionalities of activated carbons containing oxygen and
nitrogen on electrochemical capacitance
Denisa
Hulicova-Jurcakova,Mykola Seredych, Gao Qing Lu, N. K. A. C. Kodiweera,
Phillip
E. Stallworth, Steve Greenbaum, Teresa J. Bandosz
Carbon
47 (2009) 1576-1584.
215.
Graphite
oxide/AlZr polycation composites: surface characterization and performance as
adsorbents of ammonia
M.
Seredych and T.J. Bandosz
Materials
Chemistry and Physics 117 (2009) 99-106.
216.
Interactions
of 4, 6- dimethyldibenzothiophene with the surface of activated carbons
Eleni
Deliyanni, Mykola Seredych and Teresa J. Bandosz
Langmuir
25 (2009) 9302-9312.
217.
On
the reactive adsorption of ammonia on activated carbons modified by impregnation
with inorganic compounds
T.J. Bandosz, C. Petit
J. Coll. Interface Science, feature article, 338(2009)
329-345.
218.
elective
adsorption of dibenzothiophenes on activated carbons with Ag, Co and Ni species
deposited on their surfaces
M.
Seredych and T.J. Bandosz
Energy
& Fuels 23 (2009) 3737–3744.
219.
Role
of surface heterogeneity in the removal of ammonia from air on micro/mesoporous
activated carbons modified with molybdenum and tungsten oxides
C. Petit and T. J. Bandosz
Micro. Meso.
Mat. 118 (2009) 61-67.
220.
MOF-graphite
oxide composites: combining the uniqueness of graphene layers and framework of
MOF
C.
Petit Ad T. J. Bandosz
Advanced
Materials 21 ( 2009) 4753-4757.
221.
Role
of microporosity and surface chemistry in adsorption of
4,6-dimethyldibenzothiophene on polymer-derived activated carbons
M.Seredych,
Eleni Deliyanni, and Teresa J. Bandosz
Fuel
89 (2010) 1499-1507
222.
Hydrogen
sulfide adsorption on metal-organic frameworks and metal-organic frameworks /
graphite oxide composites
Petit, C.;
Mendoza, B.; Bandosz, T. J.
ChemPhysChem, 11(2010) 3678-3684
223.
Reactive
adsorption of ammonia on Cu-based MOF/graphene composites
Petit, C.; Mendoza, B.; Bandosz, T. J.
Langmuir 26 (2010) 15302-15309
224.
Effects of surface features on adsorption of SO2 on graphite
oxide/Zr(OH)4 composites
Mykola
Seredych, and Teresa J. Bandosz
J. Phys. Chem. C 114 (2010)
14552–14560.
225.
Interactions
of NO2 and NO with Carbonaceous Adsorbents Containing Silver
Nanoparticles
M.
Seredych, S. Bashkova, R. Pietrzak, T.J. Bandosz
Langmuir
26 (2010) 9457-9464
226.
Adsorption
of dibenzothiophenes on activated carbons with copper and iron deposited on
their surfaces
Mykola Seredych, Teresa J. Bandosz
Fuel
Processing Technology. 91 (2010) 693-701
227.
Interactions
of arsine with nanoporous carbons role of heteroatoms in the oxidation process
at ambient conditions
228.
Graphite
oxides obtained from porous graphite: the role of surface chemistry and texture
in ammonia retention at ambient conditions
229.
Adsorption
of dibenzothiophenes on nanoporous carbons: identification of specific
adsorption sites governing capacity and selectivity
230.
The
role of sulfur-containing groups in ammonia retention on activated carbons
Camille
Petit, Karifala Kante, and Teresa J. Bandosz
231.
Combined
role of water and surface chemistry in reactive adsorption of ammonia on
graphite oxides
232.
Specific
anion and cation capacitance in porous carbon blacks
235.
The
effects of oxidation on the surface chemistry of
sulfur-containing carbons and their arsine adsorption capacity
236.
Effect
of the incorporation of nitrogen to the carbon matrix on the selectivity and
capacity for adsorption of dibenzothiophenes from model diesel fuel.
M. Seredych, D.
Hulicova-Jurcakova, and T.J. Bandosz.
Langmuir 26
(2010) 227-233
237.
Adsorption
of ammonia on graphite oxide/Al13 composites
M.Seredych
and T. J. Bandosz
Colloids
and Surfaces A. 353 (2010) 30-36.
238.
Effect of Graphite Features on the Properties of
Metal–Organic Framework/Graphite Hybrid Materials Prepared Using an in Situ
Process
Camille
Petit, Barbara Mendoza, Deanna O’Donnell, and Teresa J. Bandosz,
Langmuir27 (2011) 10234–10242
239.
Role of Zr+4 cations in NO2
adsorption on Ce1-xZrxO2 mixed oxides at
ambient conditions
Benoit
Levasseur ,AmaniEbrahim , and Teresa J Bandosz
Langmuir
27 (2011) 9379–9386
240.
Changes in graphite oxide texture and chemistry upon oxidation and
reduction and their effect on adsorption of ammonia
Mykola Seredych,
Joseph A. Rossin and Teresa
J. Bandosz
Carbon 49 (2011) 4392-4402.
241.
Template-free synthesis of silica ellipsoids
Henan Zhang, Teresa J. Bandosz and Daniel L. Akins
Chem. Commun. 47
(2011) 7791-7793
242.
Removal
of dibenzothiophenes from model diesel fuel on sulfur rich activated carbons
M.
Seredych and T.J. Bandosz
Applied
Catalysis B; Environmental 106 (2011) 133-141.
243.
Effect
of reduction treatment on copper modified activated carbons on NOx
adsorption at room temperature
Benoit
Levasseur, Eugene Gonzalez-Lopez, Joseph A. Rossin, and Teresa J. Bandosz
Langmuir
27 (2011) 5354-5365
244.
Synthesis, characterization and adsorption properties of MIL(Fe) -
graphite oxide composites: Exploring the limits of materials’ fabrication
C.
Petit and T.J. Bandosz
Adv.
Function. Mater. 21, 2011,
2108-2117.
245.
Enhancement
in Dibenzothiophene Reactive Adsorption from Liquid Fuel via Incorporation of
Sulfur Heteroatoms to the Nanoporous Carbon Matrix
M. Seredych, M. Khine, T. J. Bandosz
ChemSusChem
4 (2011) 139-147.
246.
Effect
of silver nanoparticles deposited on micro/mesoporous activated carbons on
retention of NOxat room
temperature
S.
Bashkova, D. Deoki, T J. Bandosz
J.
Coll. Interface Sci. 354 (2011) 331-340
247.
Reactive
adsorption of penicillin on activated carbons
Conchi
O. Ania, Joaquina G. Pelayo, Teresa J. Bandosz
Adsorption
17(2011)
421-429 .
248.
Reactive
Adsorption of Hydrogen Sulfide on Graphite oxide/Zr(OH)4 composites
M. Seredych and T.J. Bandosz
Chemical Eng. J. 166 (2011) 1032-1038.
PATENTS
