Teresa J. Bandosz
TitleCited byYear
Combined effect of nitrogen‐and oxygen‐containing functional groups of microporous activated carbon on its electrochemical performance in supercapacitors
D Hulicova‐Jurcakova, M Seredych, GQ Lu, TJ Bandosz
Advanced functional materials 19 (3), 438-447, 2009
11032009
Encyclopedia of surface and colloid science
AT Hubbard
CRC press, 2002
8862002
Surface functional groups of carbons and the effects of their chemical character, density and accessibility to ions on electrochemical performance
M Seredych, D Hulicova-Jurcakova, GQ Lu, TJ Bandosz
Carbon 46 (11), 1475-1488, 2008
6452008
Activated carbon surfaces in environmental remediation
TJ Bandosz
Elsevier, 2006
4502006
MOF–graphite oxide composites: combining the uniqueness of graphene layers and metal–organic frameworks
C Petit, TJ Bandosz
Advanced Materials 21 (46), 4753-4757, 2009
4022009
Water in porous carbons
JK Brennan, TJ Bandosz, KT Thomson, KE Gubbins
Colloids and surfaces A: Physicochemical and engineering aspects 187, 539-568, 2001
3932001
On the adsorption/oxidation of hydrogen sulfide on activated carbons at ambient temperatures
TJ Bandosz
Journal of colloid and Interface Science 246 (1), 1-20, 2002
3272002
A molecular model for adsorption of water on activated carbon: comparison of simulation and experiment
CL McCallum, TJ Bandosz, SC McGrother, EA Müller, KE Gubbins
Langmuir 15 (2), 533-544, 1999
3141999
Pore structure and surface chemistry of adsorbents obtained by pyrolysis of sewage sludge-derived fertilizer
A Bagreev, TJ Bandosz, DC Locke
Carbon 39 (13), 1971-1979, 2001
3022001
Surface chemistry of activated carbons: combining the results of temperature-programmed desorption, Boehm, and potentiometric titrations
II Salame, TJ Bandosz
Journal of Colloid and Interface Science 240 (1), 252-258, 2001
2822001
Bituminous coal-based activated carbons modified with nitrogen as adsorbents of hydrogen sulfide
A Bagreev, JA Menendez, I Dukhno, Y Tarasenko, TJ Bandosz
Carbon 42 (3), 469-476, 2004
2812004
Surface functionality and porosity of activated carbons obtained from chemical activation of wood
H Benaddi, TJ Bandosz, J Jagiello, JA Schwarz, JN Rouzaud, D Legras, ...
Carbon 38 (5), 669-674, 2000
2502000
Role of surface chemistry in adsorption of phenol on activated carbons
II Salame, TJ Bandosz
Journal of colloid and interface science 264 (2), 307-312, 2003
2482003
Enhanced adsorption of ammonia on metal‐organic framework/graphite oxide composites: analysis of surface interactions
C Petit, TJ Bandosz
Advanced Functional Materials 20 (1), 111-118, 2010
2422010
Effect of pore structure and surface chemistry of virgin activated carbons on removal of hydrogen sulfide
TJ Bandosz
carbon 37 (3), 483-491, 1999
2331999
Importance of structural and chemical heterogeneity of activated carbon surfaces for adsorption of dibenzothiophene
CO Ania, TJ Bandosz
Langmuir 21 (17), 7752-7759, 2005
2252005
Synthesis, characterization, and ammonia adsorption properties of mesoporous metal–organic framework (MIL (Fe))–graphite oxide composites: exploring the limits of materials …
C Petit, TJ Bandosz
Advanced Functional Materials 21 (11), 2108-2117, 2011
2222011
Adsorption/oxidation of hydrogen sulfide on nitrogen-containing activated carbons
F Adib, A Bagreev, TJ Bandosz
Langmuir 16 (4), 1980-1986, 2000
2222000
Analysis of the relationship between H2S removal capacity and surface properties of unimpregnated activated carbons
F Adib, A Bagreev, TJ Bandosz
Environmental science & technology 34 (4), 686-692, 2000
2222000
The synthesis and characterization of copper-based metal–organic framework/graphite oxide composites
C Petit, J Burress, TJ Bandosz
Carbon 49 (2), 563-572, 2011
2182011
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Articles 1–20