This journal is © The Royal Society of Chemistry 2000
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ROGER GRICE
PUBLICATIONS
1.
R. Grice and P.B. Empedocles, J. Chem. Phys., 48, 5352 (1968); Molecular Beam
Kinetics: Reactions of K, Rb and Cs with Cl2.
2.
R. Grice, M.R. Cosandey and D.R. Herschbach, Ber. Bunsenges. Phys. Chemie, 72,
975 (1968); Correlation of Dynamics with Electronic Structure in Reactions of Alkali
Atoms with Triatomic Molecules.
3.
R. Grice, J.E. Mosch, S.A. Safron and J.P. Toennies, J. Chem. Phys., 53, 3376
(1970); Molecular Beam Measurements of the Rotational State Distribution of RbBr
Produced in Reactive Scattering of Rb on Br2.
4.
R. Grice, Molec. Phys., 18, 545 (1970); Classical Model for Vibrationally Excited
Alkali Halides.
5.
R. Grice, Molec. Phys., 19, 501 (1970); Reactive Scattering with Activation Energy:
An Empirical Model.
6.
G.M. Kendall, P.B. Foreman and R. Grice, Electronic and Atomic Collisions, Edited
by L.M. Branscomb et al., VII ICPEAC, Amsterdam, 23 (1971); Reactive Scattering
of Alkali Dimers.
7.
R. Grice and D.R. Hardin, Molec. Phys., 21, 805 (1971);
Reactions: M + RI.
8.
P.B. Foreman, G.M. Kendall and R. Grice, Molec. Phys., 23, 117 (1972); Reactive
Scattering of Alkali Dimers: Apparatus and Experimental Conditions.
9.
P.B. Foreman, G.M. Kendall and R. Grice, Molec. Phys., 23, 127 (1972); Reactive
Scattering of Alkali Dimers: K2 + Br2, ICl, IBr, BrCN.
10.
J.C. Whitehead, D.R. Hardin and R. Grice, Chem. Phys. Letters, 13, 319 (1972);
Reactive Scattering of Alkali Dimers: Determination of Two Product Distributions
for K2 + Br2, BrCN.
11.
J.C. Whitehead, D.R. Hardin and R. Grice, Molec. Phys., 23, 787 (1972); Reactive
Scattering of a Supersonic Alkali Atom Beam: K + Br2, BrCN, SnCl4, PCl3, CCl4,
CH3I.
12.
G.M. Kendall and R. Grice, Molec. Phys., 24, 1373 (1972); Vibrational Coordinates
in the Electron Jump Model.
13.
C.F. Carter, M.R. Levy and R. Grice, Chem. Phys. Letters, 17, 414 (1972); Reactive
Scattering of Methyl Radicals: CH3 + ICl.
14.
J.C. Whitehead, D.R. Hardin and R. Grice, Molec. Phys., 25, 515 (1973); Reactive
Scattering of Alkali Dimers: Product K Atoms from K2 + Br2, IBr, BrCN, SnCl4.
Model for Rebound
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15.
P.B. Foreman, G.M. Kendall and R. Grice, Molec. Phys., 25, 529 (1973); Reactive
Scattering of Alkali Dimers: K2 + SnCl4, CCl4, SiCl4, PBr3, PCl3, BBr3, CH2Br2.
16.
P.B. Foreman, G.M. Kendall and R. Grice, Molec. Phys., 25, 551 (1973); Reactive
Scattering of Alkali Dimers: K2 + C3H5I, C3H5Br, CH3I, C2H5I, C6H12.
17.
J.C. Whitehead and R. Grice, Faraday Discuss. Chem. Soc., 55, 320 (1973); Reactive
Scattering of Alkali Dimers: Alkali Atom-Dimer Exchange Reactions.
18.
C.F. Carter, M.R. Levy and R. Grice, Faraday Discuss. Chem. Soc., 55, 357 (1973);
Reactive Scattering of Methyl Radicals: CH3 + ICl, IBr, I2.
19.
S.M. Lin, J.G. Wharton and R. Grice, Molec. Phys., 26, 317 (1973); Potential Energy
Surface for the M2X+ ion and the Ionisation Potential of M2X.
20.
J.C. Whitehead and R. Grice, Molec. Phys., 26, 267 (1973); 29, 324 (1975); Semiempirical Potential Energy Surfaces for Alkali Atom-Dimer Exchange Reactions.
21.
D.R. Hardin, K.B. Woodall and R. Grice, Molec. Phys., 26, 1057 (1973); Reactive
Scattering of Alkali Dimers: K2 + HgCl2, HgBr2, HgI2.
22.
D.R. Hardin, K.B. Woodall and R. Grice, Molec. Phys., 26, 1073 (1973); Reactive
Scattering of a Supersonic Alkali Atom Beam: K + HgCl2, HgBr2, HgI2.
23.
S.M. Lin and R. Grice, Faraday Discuss. Chem. Soc., 55, 113, (1973); Comment on
Potential Surfaces for M2X+ Ions.
24.
S.M. Lin and R. Grice, Faraday Discuss. Chem. Soc., 55, 370, (1973); Comment on
Chemi-ionisation in Alkali Dimer Reactive Scattering.
25.
J.C. Whitehead and R. Grice, Faraday Discuss. Chem. Soc., 55, 374, (1973);
Comment on Alkali Atom-Dimer Exchange Reactions.
26.
C.F. Carter, M.R. Levy, K.B. Woodall and R. Grice, Faraday Discuss. Chem. Soc.,
55, 381, 385 (1973); Comment on Reactive Scattering of Fluorine Atoms and
Oxygen Atoms.
27.
D.R. Hardin and R. Grice, Molec. Phys., 26, 1321 (1973); Elastic Scattering of Alkali
Dimers: Rainbow Structure for K2 + CCl4, C6H12.
28.
R. Grice and D.R. Herschbach, Molec. Phys., 27, 159 (1974);
Configuration Interaction of Ionic and Covalent States.
29.
S.M. Lin, J.C. Whitehead and R. Grice, Molec. Phys., 27, 741, (1974); Reactive
Scattering of Alkali Dimers: Chemi-ionization.
30.
R. Grice, Adv. Chem. Phys., 30, 247 (1975); Reactive Scattering.
31.
S.M. Lin, D.J. Mascord and R. Grice, Molec. Phys., 28, 957 (1974); Reactive
Scattering of Alkali Dimers: K2 + I2, CH2I2, CHI3, CBr4.
Long-Range
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32.
S.M. Lin, D.J. Mascord and R. Grice, Molec. Phys., 28, 975 (1974); Reactive
Scattering of a Supersonic Alkali Atom Beam: K + I2, IBr, CH2I2, CHI3, CBr4.
33.
D. St. A.G. Radlein, J.C. Whitehead and R. Grice, Nature (London), 253, 37 (1975);
Bond Energy of the IO Radical from Molecular Beam Reactive Scattering
Measurements.
34.
D. St. A.G. Radlein, J.C. Whitehead and R. Grice, Molec. Phys., 29, 1813 (1975);
Reactive Scattering of Oxygen Atoms: O + I2, ICl, Br2.
35.
D. St. A.G. Radlein, J.C. Whitehead and R. Grice, 5th Intl. Symp. on Molec. Beams
(Nice), D1 (1975); Reactive Scattering of Oxygen Atoms.
36.
R. Grice, 5th Intl. Symp. on Molec. Beams (Nice), D0 (1975); Reactive Collisions in
Molecular Beams.
37.
L.C. Brown, J.C. Whitehead and R. Grice, Molec. Phys., 31, 1069 (1976); Reactive
Scattering of Methyl Radicals: Velocity Analysis of CH3 + I2, ICl.
38.
D.J. Mascord, H.W. Cruse and R. Grice, Molec. Phys., 32, 131 (1976); Reactive
Scattering of Alkali Dimers: Velocity Analysis of Na + Rb2  NaRb + Rb.
39.
D.J. Mascord, P.A. Gorry and R. Grice, Faraday Discuss. Chem. Soc., 62, 255 (1977);
Alkali Atom-Dimer Exchange Reactions: Na + Rb2.
40.
L.C. Brown, J.C. Whitehead and R. Grice, Ber. Bunsenges. Phys. Chemie, 81, 142
(1977); Product Translational Energy Distributions of Methyl Radical Reactions.
41.
P.A. Gorry and R. Grice, Faraday Discuss. Chem. Soc., 62, 318, 320 (1977);
Comment on Conical Intersections and Orientation Effects in Reaction Dynamics.
42.
P. Normington, D.S. Bomse and R. Grice, J. Chem. Soc. Faraday Trans. II, 73, 1386,
(1977); Molecular Beam Study of Surface Chemi-ionisation.
43.
P.A. Gorry, C.V. Nowikow and R. Grice, Chem. Phys. Lett., 49, 116 (1977);
Reactive Scattering of a Helium Seeded Oxygen Atom Beam.
44.
P.A. Gorry, C.V. Nowikow and R. Grice, Chem. Phys. Lett., 55, 19 (1978); Reactive
Scattering of a Neon Seeded Oxygen Atom Beam.
45.
P.A. Gorry, C.V. Nowikow and R. Grice, Chem. Phys. Lett., 55, 24 (1978);
Molecular Beam Study of Iodine Atom Abstraction by Oxygen Atoms.
46.
P.A. Gorry, C.V. Nowikow and R. Grice, Molec. Phys., 37, 329 (1979); Reactive
Scattering of a Supersonic Oxygen Atom Beam: O + CS2.
47.
P.A. Gorry, C.V. Nowikow and R. Grice, Molec. Phys., 37, 347 (1979); Reactive
Scattering of a Supersonic Oxygen Atom Beam: O + Cl2.
48.
C.V. Nowikow and R. Grice, J. Phys. E (Sci. Inst.), 12, 515 (1979);
Correlation Time-of-Flight Analysis of Molecular Beam Scattering.
Cross-
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49.
R. Grice, 7th Intl. Symp. on Molec. Beams (Riva del Garda), 58 (1979); Reactive
Scattering of a Supersonic Oxygen Atom Beam.
50.
P.A. Gorry, C.V. Nowikow and R. Grice, Molec. Phys., 38, 1485 (1979); Reactive
Scattering of a Supersonic Oxygen Atom Beam: O + CF3I.
51.
P.A. Gorry and R. Grice, J. Phys. E (Sci. Inst.), 12, 857 (1979); Microwave
Discharge Source for the Production of Supersonic Atom and Free Radical Beams.
52.
R. Grice, Faraday Discuss. Chem. Soc., 67, 16 (1979); Effect of Translational Energy
on Reaction Dynamics.
53.
I. Veltman, A. Durkin, D.J. Smith and R. Grice, Molec. Phys., 40, 213 (1980);
Reactive Scattering of Hydroxyl Radicals: OH + Br2.
54.
P.A. Gorry, C.V. Nowikow and R. Grice, Faraday Discuss. Chem. Soc., 67, 347
(1979); Comment on O + CF3I reaction.
55.
I. Veltman, A. Durkin, D.J. Smith and R. Grice, Faraday Discuss. Chem. Soc., 69,
248 (1979); Comment on OH + Br2 reaction.
56.
P.A. Gorry, C.V. Nowikow and R. Grice, Faraday Discuss. Chem. Soc., 69, 115
(1979); Reply to comments on O + CS2 reaction.
57.
R. Grice, Specialist Periodical Reports: Gas Kinetics and Energy Transfer, 4, 1
(1980); Reactions Studied by Molecular Beam Techniques.
58.
R.J. Browett, J.H. Hobson, P.A. Gorry, C.V. Nowikow and R. Grice, Molec. Phys.,
40, 1315 (1980); Reactive Scattering of a Supersonic Oxygen Atom Beam: O +
C2F5I.
59.
P.A. Gorry, R.J. Browett, J.H. Hobson and R. Grice, Molec. Phys., 40, 1325 (1980);
Reactive Scattering of a Supersonic Oxygen Atom Beam: O + C2F4.
60.
R. Grice, Accounts of Chem. Research, 14, 37 (1981); Reactive Scattering of Ground
State Oxygen Atoms.
61.
R.J. Browett, J.H. Hobson and R. Grice, Molec. Phys., 42, 425 (1981); Reactive
Scattering of a Supersonic Oxygen Atom Beam: O + C3F7I.
62.
R.J. Browett, J.H. Hobson, F.E. Davidson and R. Grice, Molec. Phys., 43, 113 (1981);
Reactive Scattering of a Supersonic Oxygen Atom Beam: O + Cl2 at Threshold.
63.
F.E. Davidson, G.L. Duncan and R. Grice, Molec. Phys., 44, 1119 (1981); Reactive
Scattering of a Supersonic Deuterium Atom Beam: D + Br2, CF3I, C2F5I, C3F7I.
64.
A. Durkin, D.P. Fernie, D.J. Smith and R. Grice, Ber. Bunsenges. Phys. Chemie, 86,
473 (1982); Reactive Scattering of Oxygen Atoms with Halogen Molecules.
65.
A.R. Clemo, F.E. Davidson, G.L. Duncan and R. Grice, Chem. Phys. Lett., 84, 509
(1981); Translational Energy Threshold Functions for Oxygen Atom Reactions.
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66.
F.E. Davidson, A.R. Clemo, G.L. Duncan, R.J.Browett, J.H. Hobson and R. Grice,
Molec. Phys., 46, 33 (1982); Reactive Scattering of a Supersonic Oxygen Atom
Beam: O + H2S.
67.
D.P. Fernie, D.J. Smith, A. Durkin and R. Grice, Molec. Phys., 46, 41 (1982);
Reactive Scattering of a Supersonic Oxygen Atom Beam: O + Br2.
68.
A. Durkin, D.J. Smith and R. Grice, Molec. Phys., 46, 55 (1982); Reactive Scattering
of a Supersonic Oxygen Atom Beam: O + IBr.
69.
A.R. Clemo, G.L. Duncan and R. Grice, J. Chem. Soc. Faraday Trans. II, 78, 1231
(1982); 79, 637 (1983); Reactive Scattering of a Supersonic Oxygen Atom Beam:
O + C2H4, C2H2.
70.
R. Grice, Chemical Society Reviews, 11, 1 (1982);
Scattering.
71.
A. Durkin, D.J. Smith and R. Grice, Molec. Phys., 46, 1251 (1982); 48, 1137 (1983);
Reactive Scattering of a Supersonic Oxygen Atom Beam: O + I2.
72.
A. Durkin, D.J. Smith, S.M.A. Hoffmann and R. Grice, Molec. Phys., 46, 1261
(1982); Reactive Scattering of a Supersonic Oxygen Atom Beam: O + ICl.
73.
J.J. Duggan and R. Grice, J. Chem. Phys., 78, 3842 (1983); Topography of Potential
Energy Surfaces: DIM Surface for H + F2.
74.
S.M.A. Hoffmann, D.J. Smith and R. Grice, Molec. Phys., 49, 621 (1983); Reactive
Scattering of a Supersonic Chlorine Atom Beam: Cl + I2.
75.
J.J. Duggan and R. Grice, J. Chem. Soc. Faraday Trans. II, 80, 729 (1984);
Topography of Potential Energy Surfaces: DIM Surface for H + Cl2.
76.
J.J. Duggan and R. Grice, J. Chem. Soc. Faraday Trans. II, 80, 739 (1984);
Topography of Potential Energy Surfaces: DIM Surfaces for F + HF, Cl + HCl.
77.
J.J. Duggan and and R. Grice, J. Chem. Soc. Faraday Trans. II, 80, 795 (1984);
Topography of Potential Energy Surfaces: DIM Surfaces for F + F2.
78.
J.J. Duggan and and R. Grice, Faraday Trans. II, 80, 809 (1984); Topography of
Potential Energy Surfaces: DIM Surfaces for Cl + Cl2.
79.
S.M.A. Hoffmann, D.J. Smith, A. González Ureña and R. Grice, Chem. Phys. Lett.,
107, 99 (1984); Breakdown of Long-Lived Collision Dynamics in the Reactions of
Chlorine Atoms with Alkyl Iodides.
80.
S.M.A. Hoffmann, D.J. Smith, A. González Ureña, T.A. Steele and R. Grice, Molec.
Phys., 53, 1067 (1984); Reactive Scattering of a Supersonic Chlorine Atom Beam:
Cl + CH3I.
81.
S.M.A. Hoffmann, D.J. Smith, T.A. Steele and R. Grice, Molec. Phys., 53, 1081
(1984); Reactive Scattering of a Supersonic Chlorine Atom Beam: Cl + C2H5I.
Molecular Beam Reactive
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82.
S.M.A. Hoffmann, D.J. Smith, T.A. Steele and R. Grice, Molec. Phys., 54, 55 (1985);
Reactive Scattering of a Supersonic Chlorine Atom Beam: Cl + C3H7I.
83.
S.M.A. Hoffmann, D.J. Smith, T.A. Steele and R. Grice, Molec. Phys., 54, 65 (1985);
Reactive Scattering of a Supersonic Chlorine Atom Beam: Cl + C3F7I.
84.
S.M.A. Hoffmann, D.J. Smith, J.H. Williams and R. Grice, Chem. Phys. Lett., 113,
425 (1985); Reactive Scattering of a Supersonic Methyl Radical Beam.
85.
R. Grice, 10th Intl. Symp. on Molec. Beams (Cannes), IVB1 (1985);
Scattering of Supersonic Atom and Free Radical Beams.
86.
T.A. Steele, J.J. Duggan and R. Grice, Molec. Phys., 55, 1411 (1985); Reactive
Scattering of a Supersonic Chlorine Atom Beam: Cl + C2F5I.
87.
T.A. Steele, N. Bradshaw and R. Grice, Molec. Phys., 56, 1117 (1985); Reactive
Scattering of a Supersonic Chlorine Atom Beam: Cl + C2H3Br.
88.
T.A. Steele, N. Bradshaw and R. Grice, J. Chem. Soc. Faraday Trans. II, 82, 631
(1986); Reactive Scattering of a Supersonic Chlorine Atom Beam: Cl + CD3OD.
89.
N. Bradshaw and R. Grice, J. Chem. Soc. Faraday Trans. II, 82, 825 (1986); Reactive
Scattering of a Supersonic Oxygen Atom Beam: O + C2H3Cl, C2H3Br, C2H2F2,
C2HF3.
90.
S.M.A. Hoffmann, D.J. Smith, N. Bradshaw and R. Grice, Molec. Phys., 57, 1219
(1986); Reactive Scattering of a Supersonic Methyl Radical Beam: CH3 + ICl, IBr,
I2, Br2.
91.
A. González Ureña, S.M.A. Hoffmann, D.J. Smith and R. Grice, J. Chem. Soc.
Faraday Trans. II, 82, 1537 (1986); Translational Energy Threshold for the Reaction
of Oxygen Atoms with Benzene Molecules.
92.
N.C. Firth and R. Grice, Molec. Phys., 60, 1261 (1987); Reactive Scattering of a
Supersonic Fluorine Atom Beam: F + Cl2.
93.
N.C. Firth and R. Grice, Molec. Phys., 60, 1273 (1987); Reactive Scattering of a
Supersonic Fluorine Atom Beam: F + Br2.
94.
N.C. Firth and R. Grice, J. Chem. Soc. Faraday Trans. II, 83, 1011 (1987);
Topography of Potential Energy Surfaces: Spin-Orbit Interaction for H + F2, Cl2.
95.
N.C. Firth and R. Grice, J. Chem. Soc. Faraday Trans. II, 83, 1023 (1987);
Topography of Potential Energy Surfaces: Spin-Orbit Interaction for F + HF, Cl +
HCl.
96.
N.C. Firth and R. Grice, J. Chem. Soc. Faraday Trans. II, 83, 1029 (1987);
Topography of Potential Energy Surfaces: Spin-Orbit Interaction for F + F2, Cl + Cl2.
97.
N.C. Firth, D.J. Smith and R. Grice, Molec. Phys., 61, 859 (1987);
Scattering of a Supersonic Fluorine Atom Beam: F + ICl.
Reactive
Reactive
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98.
N.W. Keane and R. Grice, Molec. Phys., 61, 869 (1987); Precessional Motion of
Asymmetric Top Complexes in Reactive Scattering.
99.
N.C. Firth, N.W. Keane, D.J. Smith and R. Grice, Faraday Discuss. Chem. Soc., 84,
53 (1987); Onset of Migration in the Reaction of Fluorine Atoms with Iodine
Molecules.
100.
N.C. Firth, N.W. Keane and R. Grice, J. Chem. Soc. Faraday Trans. II, 84, 181
(1988); Reactive Scattering of a Supersonic Fluorine Atom Beam: F + OCS.
101.
N.C. Firth, N.W. Keane, D.J. Smith and R. Grice, Laser Chemistry, 9, 265 (1988);
Reactive Scattering of Oxygen Atoms with Bromine Molecules.
102.
N.C. Firth, N.W. Keane, D.J. Smith and R. Grice, Laser Chemistry, 9, 277 (1988);
Reactive Scattering of Oxygen Atoms with Iodine Molecules.
103.
R.D. Jarvis and R. Grice, Molec. Phys., 65, 1205 (1988); Angular Distributions of
Reactive Scattering Arising from Persistent Complexes with Prolate Symmetric Top
Transition States.
104.
N.C. Firth and R. Grice, Selectivity in Chemical Reactions, J.C. Whitehead Editor,
Kluwer 1988, p. 417; Spin-Orbit Interactions on Potential Energy Surfaces Involving
Halogen Atoms.
105.
N.C. Firth and R. Grice, Faraday Discuss. Chem. Soc., 84, 106 (1987); Comment on
the potential energy surfaces for the O(3P) + HBr reaction.
106.
N.C. Firth, N.W Keane, D.J. Smith and R. Grice, Faraday Discuss. Chem. Soc., 84,
111 (1987): Comment on the dynamics of the F + I2 reaction.
107.
N.C. Firth, D.J. Smith and R. Grice, Faraday Discuss. Chem. Soc., 84, 118 (1987);
Comment on the F + I2 heterogeneous gas-surface reaction.
108.
R. Grice, Faraday Discuss. Chem. Soc., 84, 184 (1987);
momentum correlation in the Cl + CH3I reaction.
109.
R.D. Jarvis and R. Grice, Molec. Phys., 66, 675 (1989); Angular Distributions of
Reactive Scattering Arising from Persistent Complexes with Oblate Symmetric Top
Transition States.
110.
N.W. Keane, J.C. Whitehead and R. Grice, J. Chem. Soc. Faraday Trans. II, 85, 1081
(1989); Quasiclassical Trajectory Study of the F + I2 Potential Energy Surface.
111.
N.C. Firth, N.W. Keane, D.J. Smith and R. Grice, Molec. Phys., 66, 1223 (1989);
Reactive Scattering of a Supersonic Fluorine Atom Beam: F + I2.
112.
R. Grice, J. Chem. Soc. Faraday Trans. II, 85, 1265 (1989): Comment on angular
distributions and polarisation of product angular momentum in reactive scattering.
113.
R. Grice, J. Chem. Soc. Faraday Trans. II, 85, 1279 (1989); Comment on vector
correlations and migratory reaction dynamics.
Comment on angular
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114.
J.J. Harkin, D.J. Smith and R. Grice, XII International Symposium on Molecular
Beams, Perugia, 355 (1989); Reactive Scattering of Fluorine Atoms with Allyl and
Alkyl Iodides.
115.
R.D. Jarvis, J.J. Harkin, D.J. Smith and R. Grice, Chem. Phys. Lett., 167, 90 (1990);
Reactive Scattering via a Persistent Collision Complex as a Function of Impact
Parameter.
116.
R.D. Jarvis, N.C. Firth, D.J. Smith and R. Grice, J. Chem. Soc. Faraday Trans., 86,
2059 (1990); Preferred Transition State Geometry in the Reaction of Fluorine Atoms
with Iodomethane Molecules.
117.
R.D. Jarvis, G.J. Laming and R. Grice, Molec. Phys., 70, 667 (1990); Angular
Distributions of Reactive Scattering Arising from Persistent Complexes by
Transverse Dissociation of Symmetric Top Transition States.
118.
J.J. Harkin, R.D. Jarvis, D.J. Smith and R. Grice, Molec. Phys., 71, 323 (1990);
Reactive Scattering of a Supersonic Fluorine Atom Beam: F + C2H5I, C3H7I,
(CH3)2CHI.
119.
J.J. Harkin, D.J. Smith and R. Grice, Molec. Phys., 72, 95 (1991);
Scattering of a Supersonic Fluorine Atom Beam: F + (CH3)3CI.
120.
J.J. Harkin, D.J. Smith and R. Grice, Molec. Phys., 72, 763 (1991); Reactive
Scattering of a Supersonic Fluorine Atom Beam: F + C3H5I.
121.
D.J. Smith and R. Grice, Molec. Phys., 73, 1371 (1991); Angular Distributions of
Reactive Scattering Arising from Persistent Complexes with Asymmetric Top
Transition States.
122.
M.H.P. Ardebili, C.J. Hughes, J.C. Whitehead and R. Grice, XIII International
Symposium on Molecular Beams, El Escorial, Madrid, C1 (1991); Molecular BeamSurface Study of Time Dependent Chemiluminescence from the Surface Catalysed
Recombination of O and NO on Polycrystalline Ni.
123.
M.H.P. Ardebili, R. Grice, C.J. Hughes and J.C. Whitehead, J. Chem. Soc. Faraday
Trans., 87, 2877 (1991); Time Dependent Chemiluminescence from the Surface
Catalysed Recombination of O and NO on Polycrystalline Ni.
124.
R.D. Jarvis, R.W.P. White, Z.Z. Zhu, D.J. Smith and R. Grice, Molec. Phys., 75, 587
(1992); Transition State Dynamics of F + ICl, C2H5I Reactive Scattering.
125.
M.H.P. Ardebili, R. Grice, C.J. Hughes and J.C. Whitehead, J. Chem. Soc. Faraday
Trans., 88, 399 (1992); Time Dependent Chemiluminescence from the Surface
Catalysed Recombination of O and NO on Polycrystalline Pt.
126.
Z.Z. Zhu, J.J.W. McDouall, D.J. Smith and R. Grice, Chem. Phys. Lett., 188, 520
(1992); Transition State Dynamics of O(3P) + H2S Reactive Scattering.
127.
R. Grice, Faraday Discuss. Chem. Soc., 91, 381, 385 (1991); Comment on
Asymmetric Top Transition States in Hydrogen Atom Displacement Reactions.
Reactive
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128.
M.H.P. Ardebili, C.J. Hughes, J.C. Whitehead and R. Grice, Faraday Discuss. Chem.
Soc., 91, 472 (1991); Comment on Time Dependent Chemiluminescence from O +
NO Surface Recombination.
129.
M.H.P. Ardebili, R. Grice, M.E. Hodgson, C.J. Hughes and J.C. Whitehead, J. Chem.
Soc. Faraday Trans., 88, 1377 (1992); Time Dependent Chemiluminescene from
Surface Catalysed Recombination of O + NO on Polycrystalline Cu, Au and Ag.
130.
R.W.P. White, D.J. Smith and R. Grice, Chem. Phys. Lett., 193, 269 (1992);
Reactive Scattering of O(3P) Atoms with Alkyl and Allyl Iodide Molecules.
131.
R. Grice, Molec IX, Prague, 4 (1992); Invited Lecture: Transition State Dynamics in
Reactive Scattering Experiments.
132.
R. Grice, Nature, 359, 584 (1992);
Clocked in Real Time.
133.
R.W.P. White, D.J. Smith and R. Grice, NATO Advanced Research Workshop,
Assisi, P25 (1992); Reactive Scattering of O(3P) Atoms with Alkyl and Allyl Iodide
Molecules.
134.
Z.Z. Zhu, R.W.P. White, D.J. Smith and R. Grice, NATO Advanced Research
Workshop, Assisi, P26 (1992); Reactive Scattering of Fluorine Atoms with Halogen
and Interhalogen Molecules.
135.
R.D. Jarvis, N.C. Firth, D.J. Smith and R. Grice, Molec. Phys., 79, 323 (1993);
Direct Dynamics of F + CCl3Br Reactive Scattering.
136.
R.W.P. White, D.J. Smith and R. Grice, J. Phys. Chem., 97, 2123 (1993); Stabilities
and Lifetimes of Fluoroalkyliodide and Fluoroallyliodide Collision Complexes.
137.
Z.Z. Zhu, D.J. Smith and R. Grice, J. Chem. Soc. Faraday Trans., 89, 1487 (1993);
Transition State Dynamics of F + Cl2 Reactive Scattering.
138.
R. Grice and D.J. Smith, XV International Symposium on Molecular Beams, Berlin,
H14 (1993); Angular Distributions of Reactive Scattering Arising from Persistent
Complexes Dissociating at Arbitrary Angles to the Inertial Axes of the Transition
State.
139.
R. Grice, Endeavour, 17, 173 (1993); Molecular Beam Studies of Chemical Reaction
Dynamics.
140.
R. Grice and D.J. Smith, Molec. Phys. 80, 1533 (1993); Angular Distributions of
Reactive Scattering Arising from Persistent Complexes with Dissociation at Arbitrary
Angles to the Inertial Axes of the Transition State.
141.
Z.Z. Zhu, R.W.P. White, D.J. Smith and R. Grice, Can. J. Chem., 72, 523 (1994);
Transition State Dynamics of F + Br2 Reactive Scattering.
142.
Z.Z. Zhu, D.J. Smith and R. Grice, Int. J. Mass Spectrom. Ion Proc., 135, 55 (1994);
Displacement Reaction Dynamics of Fluorine Atoms with Allyl Iodide Molecules.
Reaction Dynamics:
Collision Complexes
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143.
Z.Z. Zhu, D.J. Smith and R. Grice, J. Phys. Chem., 98, 4003 (1994); Displacement
Reaction Dynamics of Fluorine Atoms with Vinyl Bromide Molecules.
144.
Z.Z. Zhu, D.J. Smith and R. Grice, J. Phys. Chem., 98, 4008 (1994); Displacement
Dynamics of Fluorine Atoms Reacting with Allyl Bromide Molecules.
145.
J.J. Wang, Z.Z. Zhu, D.J. Smith and R. Grice, J. Phys. Chem., 98, 10787 (1994);
Halogen Atom Abstraction Dynamics of Fluorine Atoms Reacting with Allyl
Bromide and Iodobenzene Molecules.
146.
J.J. Rochford, L.J. Powell and R. Grice, X Molec, Salamanca, 107 (1994); Reactive
Scattering of O(3P) Atoms with OCS, CS2 Molecules at Initial Translational Energy E
~ 85 kJ mol–1.
147.
J.J. Rochford, L.J. Powell, R. Grice, Stereodynamics and Active Control in Chemical
Reactions, Gif sur Yvette, 58 (1994); Reactive Scattering of O(3P) Atoms with OCS,
CS2, Cl2 and Br2 Molecules at Initial Translational Energy E ~ 85 kJ mol–1.
148.
R. Grice, Intl. Rev. Phys. Chem., 14, 315 (1995); Dynamics of Persistent Collision
Complexes in Molecular Beam Reactive Scattering.
149.
J.J. Rochford, L.J. Powell and R. Grice, J. Phys. Chem., 99, 15369 (1995); Transition
State Dynamics of O(3P) + OCS, CS2 Reactive Scattering at Initial Translational
Energy E ~ 85 kJ mol–1.
150.
J.J. Rochford, L.J. Powell and R. Grice, J. Phys. Chem., 99, 13647 (1995); Role of
Intersystem Crossing in the Dynamics of the O(3P) + Cl2, Br2 Reactions.
151.
J.J. Wang, D.J. Smith and R. Grice, Molecular Dynamics in the Gas Phase and at
Interfaces, Kaiserslautern, E06 (1995); Role of Intersystem Crossing in the Dynamics
of O(3P) Atoms Reacting with C2H5I and C3H5I Molecules.
152.
R. Grice and A. Zewail, Chem. Phys., 207, iii (1996); Preface to special issue on
“Laser and Molecular Beam Studies of Chemical Reaction Dynamics.”
153.
J.J. Wang, D.J. Smith and R. Grice, Chem. Phys., 207, 203 (1996); Role of Migration
in the Dynamics of Bromine Atoms Reacting with Iodine Molecules.
154.
L.J. Powell, D.D. Wells, J.J. Wang, D.J. Smith and R. Grice, Molec. Phys., 87, 865
(1996); Role of Intersystem Crossing in the Dynamics of the O(3P) + ICl Reaction.
155.
J.J. Wang, D.J. Smith and R. Grice, J. Phys. Chem., 100, 6620 (1996); Role of
Intersystem Crossing in the Dynamics of the O(3P) + C2H5I Reaction.
156.
J.J. Wang, D.J. Smith and R. Grice, J. Phys. Chem., 100, 16169 (1996);
Displacement Dynamics of Fluorine Atoms Reacting with Bromobenzene and
Iodobenzene Molecules.
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157.
J.J. Wang, D.J. Smith and R. Grice, J. Phys. Chem., 100, 13603 (1996); Role of
Intersystem Crossing in the Dynamics of the O(3P) + (CH3)2CHI, (CH3)3CI
Reactions.
158.
R. Grice, Faraday Discuss., 102, 255 (1995); Comment on Backward Scattering in
Long-Lived Collision Complexes.
159.
R. Grice, Faraday Discuss., 102, 483 (1995); Comment on Photodissociation.
160.
J.J. Wang, D.J. Smith and R. Grice, 14th Intl. Symp. on Gas Kinetics, Leeds, H3
(1996); Role of Intersystem Crossing in the Dynamics of O(3P) Atoms Reacting with
Alkyl and Allyl Iodide Molecules.
161.
D.D. Wells, S. Mohr, K.M. Goonan, M. Hammer and R. Grice, 14th Intl. Symp. on
Gas Kinetics, Leeds, H11 (1996); Role of Intersystem Crossing in the Dynamics of
the O(3P) + ICl, CF3I Reactions.
162.
R. Grice, Stereodynamics of Chemical Reactions, Bielefeld, O9 (1996); Role of
Intersystem Crossing in the Reactions of O(3P) Atoms with Substituted Iodomethane
Molecules.
163.
X. Gao, M.P. Hall, D.J. Smith and R. Grice, J. Phys. Chem. A, 101, 187 (1997);
Dynamics of Ring Cleavage and Substitution in the Reactive Scattering of O(3P)
Atoms with C2H4S, C4H4S Molecules.
164.
J.J. Wang, D.J. Smith and R. Grice, J. Phys. Chem. A, 101, 3293 (1997); Role of
Renner Teller and Spin-Orbit Interacton in the Dynamics of the O(3P) + C3H5I
Reaction.
165.
D.D. Wells, S. Mohr, K.M. Goonan, M. Hammer and R. Grice, J. Phys. Chem. A,
101, 7499 (1997); Role of Renner Teller and Spin-Orbit Interaction in the Reactive
Scattering of O(3P) Atoms with CF3I Molecules.
166.
X. Gao, J. Essex-Lopresti, S. Munro, M.P. Hall, D.J. Smith and R. Grice, J. Chem.
Soc. Faraday Trans., 93, 4119 (1997); Role of Intersystem Crossing in the Reactive
Scattering of O(3P) Atoms with CF3CH2I Molecules.
167.
S. Mohr, K.M. Goonan, D.D. Wells and R. Grice, J. Phys. Chem. A, 101, 9699
(1997); Reactive Scattering of OD Radicals with ICl and Br2 Molecules at Initial
Translational Energy E ~ 90 kJ mol–1.
168.
R. Grice, Faraday Discuss., 108, 94 (1997); Comment on the electronic state of the
products of a chemical reaction.
169.
S. Mohr, K.M. Goonan and R. Grice, Faraday Discuss., 108, 428 (1997); Comment
on rebound and long-lived complex dynamics.
170.
R. Grice, Faraday Discuss., 108, 458 (1997); Comment on the mechanism of a
chemical reaction.
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171.
X. Gao, J. Essex-Lopresti, S. Munro, M.P. Hall, D.J. Smith and R. Grice, J. Phys.
Chem.A, 102, 1912 (1998); Role of Renner Teller and Spin Orbit Interaction in the
Dynamics of the O(3P) + CH2ICl Reaction.
172.
X. Gao, J. Essex-Lopresti, S. Munro, M.P. Hall, D.J. Smith and R. Grice, J. Chem.
Soc. Faraday Trans. 94, 641 (1998); Role of Intersystem Crossing in the Reactive
Scattering of O(3P) Atoms with CH2I2 Molecules.