Publications 2001-2005
147. Surface residence time measurements of transient methyl radicals
K. A. Briggman, P.C. Stair and E. Weitz
Chemical Physics Letters 334, (2001) 1-6
148. The Reactions of Fe(CO)3 and Fe(CO)4 with N2 in the Gas Phase
Jiaqiang Wang, Gregory T. Long and Eric Weitz
Journal of Physical Chemistry A 105, (2001) 3765 - 3772
149. Bond Energies and Bonding Interactions in Fe(CO)5-n(N2)n (n=0-5) and Cr(CO)6-n(N2)n (n=0-6) Complexes: Density Functional Theory Calculations and Comparisons to Experimental Data.
David L. Cedeño, Eric Weitz, and Attila Bérces
Journal of Physical Chemistry A 105, (2001) 3773 - 3787
150. A Gas Phase Study of the Kinetics of Formation of Fe(CO)3DMB, Fe(CO)3(DMB)2, and Fe(CO)4DMB: The Bond Dissociation Enthalpy for Fe(CO)3(DMB)2 (DMB = 3,3-dimethyl-1- butene).
Jiaqiang Wang and Eric Weitz
Journal of Physical Chemistry A 105, (2001) 5410-5419
151. Bonding Interactions in Olefin (C2X4, X = H, F, Cl, Br, I and CN) Iron Tetracarbonyls Complexes:The Role of the Deformation Energy in Bonding and Reactivity
David L. Cedeño, Eric Weitz and Attila Bérces
Journal of Physical Chemistry A 105, (2001) 8077-8085
152. An experimental determination of the Cr-C2Cl4 bond dissociation enthalpy in Cr(CO)5(C2Cl4): Quantifying metal-olefin bonding interactions.
David L. Cedeño and Eric Weitz
Journal of the American Chemical Society 123, (2001) 12857- 12865
153. An Experimental Determination of the Cr-DMB (DMB = 3,3 dimethyl-1-butene) Bond Energy in Cr(CO)5(DMB): Effects of Alkyl Substitution on Cr-Olefin Bond Energies in Cr(CO)5(Olefin) Complexes
David L. Cedeño and Eric Weitz
Journal of Physical Chemistry A, 106, (2002) 4651-4660
154. Photolysis of intrasilicalite I2: spectroscopy and dynamics
David B. Pedersen and Eric Weitz
Journal of Chemical Physics 116, (2002) 9897-9906
155. A density functional theory study of eta-2 acyl bonding in Fe and Mn carbonyl complexes
Xianghuai Wang and Eric Weitz
Journal of Physical Chemistry A 106, (2002) 11782-11790
156. Photocatalytic Transformation of 2,4,5-trichlorophenol on TiO2 under Sub-Bandgap Illumination
Alex Agrios, Kimberley Gray and Eric Weitz
Langmuir 19, (2003) 1402-1409
157. Density Functional Theory Study of Fe(CO)3(eta-2-C3H6), HFe(CO)3(eta-3-C3H5), and the Iron- Allyl Bond Energy
David L. Cedeno and Eric Weitz
Organometallics 22, (2003) 2652-2659
158. NOx reduction from diesel emissions over a non-transition metal zeolite catalyst: Catalytic tests and MS-TP analysis,
Bin Wen, Young Hoon Yeom, Eric Weitz, Wolfgang M. H. Sachtler
Applied Catalysis, B, Environmental 48, (2004) 125-131
159. NOx reduction from diesel emissions over a non-transition metal zeolite catalyst: A mechanistic study using FTIR spectroscopy
Young Hoon Yeom, Bin Wen, Wolfgang M. H. Sachtler, Eric Weitz
Journal of Physical Chemistry, B, 108, (2004) 5386-5404
160. Arene hapticity in (C6H6)Cr(CO)n n=1-5 complexes: A DFT study of singlet and triplet energy surfaces.
Revital Cohen, Eric Weitz, Jan M. L. Martin and Mark A. Ratner,
Organometallics, 23, (2004) 2315-2325
161. A density functional theory study of alkyl group migration in RMn(CO)2 complexes Xianghuai Wang and Eric Weitz
The Journal of Organometallic Chemistry, 689, 2354-2360 (2004)
162. Narrow-Band Irradiation of a Homologous Series of Chlorophenols on TiO2: Charge-Transfer Complex Formation and Reactivity, Alexander G. Agrios, Kimberly A. Gray, and Eric Weitz
Langmuir, 20, (2004) 5911-5917
163. Reduction over zeolite-based catalysts of nitrogen oxides in emissions containing excess oxygen- Unravelling the Reaction mechanism, Hay-Ying Chen, Qi Sun, Bin Wen, Young-Hoon Yeom, Eric Weitz, and Wolfgang M. H. Sachtler,
Catalysis Today, 96, (2004) 1-10
164. Low Activation Energy Pathway for the Catalyzed Reduction of Nitrogen Oxides to N2 by Ammonia, Meijun Li, Juan Henao, Younghoon Yeom, Eric Weitz, Wolfgang M.H. Sachtler,
Catalysis Letters, 98, (2004) 5-9
165. The Role of NO in the Mechanism of NOx Reduction with Ammonia over a BaNa-Y Catalyst
Young Hoon Yeom, Juan Henao; Mei Jun Li, Wolfgang M.H. Sachtler, and Eric Weitz
Journal of Catalysis 231, (2005) 181-193
166. Reactions of Fe(CO)4 with C2H5I in the gas phase: Evidence for the formation of IFe(CO)4(C2H5), IFe(CO)3(eta-2-COC2H5) and IFe(CO)4(COC2H5)" , David L. Cedeno and Eric Weitz
Organometallics 24, (2005) 1233-1241.
167. Possible Reasons for the Superior Performance of Zeolite-Based Catalysts in the Reduction of Nitrogen Oxides.
Meijun Li, Younghoon Yeom, Eric Weitz, and Wolfgang MH Sachtler,
Journal of Catalysis 235, (2005) 201-208
168. A Density Functional Study of Fe(CO)3 and Fe(CO)3(L) with H2 and C2H4, where L=H2 or C2H4: Reactions Relevant to Olefin Hydrogenation.
Leslie C. Kismartoni, Eric Weitz and David L. Cedeño
Organometallics 24, (2005) 4714-4720