Gary Haller
Gary Haller
Department of Chemical and Environmental Engineering, Yale University
Verified email at - Homepage
Cited by
Cited by
Metal–support interaction: Group VIII metals and reducible oxides
GL Haller, DE Resasco
Advances in catalysis 36, 173-235, 1989
Evaluation of pore structure parameters of MCM-41 catalyst supports and catalysts by means of nitrogen and argon adsorption
PI Ravikovitch, D Wei, WT Chueh, GL Haller, AV Neimark
The Journal of Physical Chemistry B 101 (19), 3671-3679, 1997
Density functional theory model for calculating pore size distributions: pore structure of nanoporous catalysts
PI Ravikovitch, GL Haller, AV Neimark
Advances in colloid and interface science 76, 203-226, 1998
Spectroscopy in heterogeneous catalysis
W Delgass
Elsevier, 2012
A model of metal-oxide support interaction for Rh on TiO2
DE Resasco, GL Haller
Journal of Catalysis 82 (2), 279-288, 1983
Methanation of carbon dioxide on Ni-incorporated MCM-41 catalysts: The influence of catalyst pretreatment and study of steady-state reaction
G Du, S Lim, Y Yang, C Wang, L Pfefferle, GL Haller
Journal of catalysis 249 (2), 370-379, 2007
Coke formation and deactivation pathways on H-ZSM-5 in the conversion of methanol to olefins
S Müller, Y Liu, M Vishnuvarthan, X Sun, AC van Veen, GL Haller, ...
Journal of Catalysis 325, 48-59, 2015
Recent advances in the selective catalytic reduction of NOx with NH3 on Cu-Chabazite catalysts
J Wang, H Zhao, G Haller, Y Li
Applied Catalysis B: Environmental 202, 346-354, 2017
On reaction pathways in the conversion of methanol to hydrocarbons on HZSM-5
X Sun, S Mueller, Y Liu, H Shi, GL Haller, M Sanchez-Sanchez, ...
Journal of catalysis 317, 185-197, 2014
Chemisorptive and catalytic behavior of chromia
RL Burwell Jr, GL Haller, KC Taylor, JF Read
Advances in Catalysis 20, 1-96, 1969
A carbon nanotube–polymer composite for T-cell therapy
TR Fadel, FA Sharp, N Vudattu, R Ragheb, J Garyu, D Kim, E Hong, N Li, ...
Nature nanotechnology 9 (8), 639-647, 2014
Metal-support effects in Pt/L-zeolite catalysts
G Larsen, GL Haller
Catalysis letters 3, 103-110, 1989
Synthesis and characterization of highly ordered Co− MCM-41 for production of aligned single walled carbon nanotubes (SWNT)
S Lim, D Ciuparu, C Pak, F Dobek, Y Chen, D Harding, L Pfefferle, ...
The Journal of Physical Chemistry B 107 (40), 11048-11056, 2003
Impact of the local environment of Brĝnsted acid sites in ZSM-5 on the catalytic activity in n-pentane cracking
S Schallmoser, T Ikuno, MF Wagenhofer, R Kolvenbach, GL Haller, ...
Journal of catalysis 316, 93-102, 2014
Uniform-diameter single-walled carbon nanotubes catalytically grown in cobalt-incorporated MCM-41
D Ciuparu, Y Chen, S Lim, GL Haller, L Pfefferle
The Journal of Physical Chemistry B 108 (2), 503-507, 2004
Mechanical stability of pure silica mesoporous MCM-41 by nitrogen adsorption and small-angle X-ray diffraction measurements
VY Gusev, X Feng, Z Bu, GL Haller, JA O'Brien
The Journal of Physical Chemistry 100 (6), 1985-1988, 1996
On the impact of co-feeding aromatics and olefins for the methanol-to-olefins reaction on HZSM-5
X Sun, S Mueller, H Shi, GL Haller, M Sanchez-Sanchez, AC van Veen, ...
Journal of catalysis 314, 21-31, 2014
Synthesis, characterization, and catalytic performance of highly dispersed vanadium grafted SBA-15 catalyst
G Du, S Lim, M Pinault, C Wang, F Fang, L Pfefferle, GL Haller
Journal of Catalysis 253 (1), 74-90, 2008
Carbon nanotube-supported Pt-based bimetallic catalysts prepared by a microwave-assisted polyol reduction method and their catalytic applications in the selective hydrogenation
Z Guo, Y Chen, L Li, X Wang, GL Haller, Y Yang
Journal of Catalysis 276 (2), 314-326, 2010
XANES-TPR study of Cu-Pd bimetallic catalysts: Application of factor analysis
M Fernandez-Garcia, C Marquez Alvarez, GL Haller
The Journal of Physical Chemistry 99 (33), 12565-12569, 1995
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