Follow
John Harrison
John Harrison
Associate Professor of Chemistry, Massey University
Verified email at massey.ac.nz
Title
Cited by
Cited by
Year
Revisiting the electronic structure of phosphazenes
AB Chaplin, JA Harrison, PJ Dyson
Inorganic chemistry 44 (23), 8407-8417, 2005
2262005
The unidentified interstellar infrared bands: PAHs as carriers?
S Schlemmer, DJ Cook, JA Harrison, B Wurfel, W Chapman, RJ Saykally
Science 265 (5179), 1686-1689, 1994
1381994
Photodissociation of ozone in the Hartley band: Fluctuation of the vibrational state distribution in the O2(1Δg) fragment
MA Thelen, T Gejo, JA Harrison, JR Huber
The Journal of chemical physics 103 (18), 7946-7955, 1995
801995
Kinetics of reactions of NH with NO and NO2
JA Harrison, AR Whyte, LF Phillips
Chemical physics letters 129 (4), 346-352, 1986
771986
Single photon infrared emission spectroscopy: A study of IR emission from UV laser excited PAHs between 3 and 15 μm
DJ Cook, S Schlemmer, N Balucani, DR Wagner, JA Harrison, B Steiner, ...
The Journal of Physical Chemistry A 102 (9), 1465-1481, 1998
761998
Reactions of trans-hydroxycarbonyl radical studied by infrared spectroscopy
JT Petty, JA Harrison, CB Moore
The Journal of Physical Chemistry 97 (43), 11194-11198, 1993
741993
Conformational flexibility in 2, 2 ‘-dioxybiphenyl-chloro-cyclotetraphosphazenes and its relevance to polyphosphazene analogues
EW Ainscough, AM Brodie, AB Chaplin, A Derwahl, JA Harrison, CA Otter
Inorganic chemistry 46 (7), 2575-2583, 2007
572007
Photodissociation of NO2 at 355 and 351 nm investigated by photofragment translational spectroscopy
JA Harrison, X Yang, M Rösslein, P Felder, JR Huber
The Journal of Physical Chemistry 98 (47), 12260-12269, 1994
421994
Structures, energies, and vibrational frequencies of intermediates and transition states in the reaction of amidogen and nitric oxide
JA Harrison, RGAR Maclagan, AR Whyte
Journal of Physical Chemistry 91 (27), 6683-6686, 1987
411987
Three-body photodissociation of 1, 3, 5-triazine
T Gejo, JA Harrison, JR Huber
The Journal of Physical Chemistry 100 (33), 13941-13949, 1996
331996
The Nature of the Phosphazene Nitrogen–Metal Bond: DFT Calculations on 2‐(Pyridyloxy) cyclophosphazene Complexes
RJ Davidson, EW Ainscough, AM Brodie, JA Harrison, MR Waterland
European Journal of Inorganic Chemistry 2010 (11), 1619-1625, 2010
292010
Communication: Transfer of more than half the population to a selected rovibrational state of H2 by Stark-induced adiabatic Raman passage
N Mukherjee, W Dong, JA Harrison, RN Zare
The Journal of Chemical Physics 138 (5), 2013
282013
The structure and vibrational frequencies of NH2NO
JA Harrison, RGAR Maclagan, AR Whyte
Chemical physics letters 130 (1-2), 98-102, 1986
281986
Chasing the agostic interaction in ligand assisted cyclometallation reactions of palladium (II)
MA Sajjad, KE Christensen, NH Rees, P Schwerdtfeger, JA Harrison, ...
Dalton Transactions 46 (46), 16126-16138, 2017
232017
Simulating dynamic equilibria: A class experiment
JA Harrison, PD Buckley
Journal of Chemical Education 77 (8), 1013, 2000
222000
Nonresonant photons catalyze photodissociation of phenol
KI Hilsabeck, JL Meiser, M Sneha, JA Harrison, RN Zare
Journal of the American Chemical Society 141 (2), 1067-1073, 2018
212018
NBO orbital interaction analysis for the ambiphilic metal–ligand activation/concerted metalation deprotonation (AMLA/CMD) mechanism involved in the cyclopalladation reaction of …
MA Sajjad, JA Harrison, AJ Nielson, P Schwerdtfeger
Organometallics 37 (21), 3659-3669, 2018
192018
New complexity for aromatic ring agostic interactions
MA Sajjad, KE Christensen, NH Rees, P Schwerdtfeger, JA Harrison, ...
Chemical Communications 53 (30), 4187-4190, 2017
192017
Estimation of mass transfer rates through hydrophobic pervaporation membranes
AR Overington, M Wong, JA Harrison, LB Ferreira
Separation Science and Technology 44 (4), 787-816, 2009
182009
Concentration of dairy flavour compounds using pervaporation
A Overington, M Wong, J Harrison, L Ferreira
International dairy journal 18 (8), 835-848, 2008
182008
The system can't perform the operation now. Try again later.
Articles 1–20