| Initial vibrational energy level distributions determined by infra-red chemiluminescence: II. The reaction of fluorine atoms with hydrogen halides N Jonathan, CM Melliar-Smith, S Okuda, DH Slater, D Timlin Molecular Physics 22 (4), 561-574, 1971 | 128 | 1971 |
| Initial vibrational energy distributions determined by infra-red chemiluminescence: I. The reaction of fluorine atoms with hydrogen and methane N Jonathan, CM Melliar-Smith, DH Slater Molecular Physics 20 (1), 93-102, 1971 | 127 | 1971 |
| ALARP and CBA all in the same game BJM Ale, DND Hartford, D Slater Safety science 76, 90-100, 2015 | 96 | 2015 |
| On the origin of PCDS–(Probability consequence diagrams) B Ale, P Burnap, D Slater Safety science 72, 229-239, 2015 | 74 | 2015 |
| Mechanism and kinetics of propane pyrolysis SK Layokun, DH Slater Industrial & Engineering Chemistry Process Design and Development 18 (2 …, 1979 | 68 | 1979 |
| The photochemistry of the azoalkanes SS COLLIER, DH SLATER, JG CALVERT Photochemistry and Photobiology 7 (6), 737-753, 1968 | 66 | 1968 |
| Identification of the photochemically active species in sulfur dioxide photolysis within the first allowed absorption band S Okuda, TN Rao, DH Slater, JG Calvert The Journal of Physical Chemistry 73 (12), 4412-4415, 1969 | 53 | 1969 |
| Analysis of Hydrogen Fluoride Infrared Chemiluminescence from Simple Atom–Molecule Reactions N Jonathan, CM Melliar-Smith, D Timlin, DH Slater Applied Optics 10 (8), 1821-1826, 1971 | 47 | 1971 |
| Environmental risk assessment and the environment agency D Slater, H Jones Journal of Hazardous Materials 65 (1-2), 77-91, 1999 | 45 | 1999 |
| Initial Vibrational Energy Level Populations Resulting from the Reaction H+F2 as Studied by Infrared Chemiluminescence N Jonathan, CM Melliar‐Smith, DH Slater The Journal of Chemical Physics 53 (11), 4396-4397, 1970 | 43 | 1970 |
| Dragons, black swans and decisions BJM Ale, DND Hartford, DH Slater Environmental research 183, 109127, 2020 | 38 | 2020 |
| Lifetime and quenching rate constant for the lowest triplet state of sulfur dioxide SS Collier, A Morikawa, DH Slater, JG Calvert, G Reinhardt, E Damon Journal of the American Chemical Society 92 (1), 217-218, 1970 | 32 | 1970 |
| Photolysis of 1, 1'-azoisobutane vapor at 3660 A. Reactions of the isobutyl free radical DH Slater, SS Collier, JG Calvert Journal of the American Chemical Society 90 (2), 268-273, 1968 | 31 | 1968 |
| A novel approach to explore Safety-I and Safety-II perspectives in in situ simulations—the structured what if functional resonance analysis methodology RJ MacKinnon, K Pukk-Härenstam, C Kennedy, E Hollnagel, D Slater Advances in Simulation 6 (1), 21, 2021 | 25 | 2021 |
| A systems analysis of the COVID-19 pandemic response in the United Kingdom–Part 1–The overall context D Slater, E Hollnagel, R MacKinnon, M Sujan, A Carson-Stevens, A Ross, ... Safety Science 146, 105525, 2022 | 21 | 2022 |
| Hydrogen-abstraction reactions from silanes. Part I. The reactions of methyl radicals with trichlorosilane, methyldichlorosilane, and methyltrichlorosilane JA Kerr, DH Slater, JC Young Journal of the Chemical Society A: Inorganic, Physical, Theoretical, 104-108, 1966 | 21 | 1966 |
| Hydrogen-abstraction reactions from silanes. Part II. The reactions of methyl radicals with trifluorosilane, trimethylsilane, dimethyldichlorosilane, and trimethylchlorosilane JA Kerr, DH Slater, JC Young Journal of the Chemical Society A: Inorganic, Physical, Theoretical, 134-137, 1967 | 17 | 1967 |
| The ethical dilemmas of risky decisions BJM Ale, DH Slater, DND Hartford Risk analysis 43 (2), 219-233, 2023 | 15 | 2023 |
| The practical value of a life: priceless, or a CBA calculation? BJM Ale, DND Hartford, DH Slater Medical Research Archives 6 (3), 2018 | 14 | 2018 |
| Infrared emission from the reaction of atomic fluorine with hydrogen chloride-a possible new chemical laser system N Jonathan, CM Melliar-Smith, DH Slater Chemical Physics Letters 7 (2), 257-259, 1970 | 12 | 1970 |
Erik HollnagelProfessor, Professor Emeritus, Ph.D.在 safetysynthesis.com 的电子邮件经过验证
