Open Access
Table C.3
Compilation of neutral-neutral reactions*
| No. | Reaction | Rate coefficient cm3 s−1 | Reference |
|---|---|---|---|
| 1 | C + C → C2 + hv | 2.16 × 10−11 | Lo et al. (2020) |
| 2 | C + CH → C2 + H | 6.59 × 10−11 | Lo et al. (2020) |
| 3 | C + CO → C2 + O | 1.00 × 10−10(Tn/300)0.50exp(−52800/Tn) | KIDA |
| 4 | C + CO2 → CO + CO | 1.00 × 10−15(Tn/300)0.50 | KIDA |
| 5 | C + H → CH + hv | 1.00 × 10−17 | Lo et al. (2020) |
| 6 | C + H2 → CH + H | 6.64 × 10−10exp(−11700/Tn) | Lo et al. (2020) |
| 7 | C + H2 → CH2 + hv | 1.00 × 10−17 | KIDA |
| 8 | C + N → CN + hv | 7.76 × 10−19(Tn/300)0.14exp(−0.18/Tn) | Lo et al. (2020) |
| 9 | C + N2 → CN + N | 8.70 × 10−11exp(−22600/Tn) | KIDA |
| 10 | C + NH → CH + N | 1.73 × 10−11(Tn/300)0.50exp(−4000/Tn) | Lo et al. (2020) |
| 11 | C + NH → CN + H | 1.20 × 10−10 | Lo et al. (2020) |
| 12 | C + NO → CN + O | 6.00 × 10−11(Tn/300)−0.16 | Lo et al. (2020) |
| 13 | C + NO → CO + N | 9.00 × 10−11(Tn/300)−0.16 | Lo et al. (2020) |
| 14 | C + O → CO + hv | 9.74 × 10−18(Tn/300)0.71exp(−136/Tn) | Lo et al. (2020) |
| 15 | C + O2 → CO + O | 4.90 × 10−11(Tn/300)−0.32 | Lo et al. (2020) |
| 16 | C + OH → CH + O | 2.25 × 10−11(Tn/300)0.50exp(−14800/Tn) | KIDA |
| 17 | C + OH → CO + H | 1.15 × 10−10(Tn/300)−0.34exp(0.108/Tn) | Lo et al. (2020) |
| 18 | CH + CO2 → HCO + CO | 2.94 × 10−13(Tn/300)0.50exp(−3000/Tn) | Lo et al. (2020) |
| 19 | CH + H → H2 + C | 1.31 × 10−10exp(−80/Tn) | Lo et al. (2020) |
| 20 | CH + H2 → CH2 + H | 2.90 × 10−10exp(−1670/Tn) | Lo et al. (2020) |
| 21 | CH + H2 → CH3 + hv | 5.09 × 10−18(Tn/300)−0.71exp(−11.6/Tn) | Lo et al. (2020) |
| 22 | CH + N → CN + H | 1.66 × 10−10(Tn/300)−0.09 | Lo et al. (2020) |
| 23 | CH + N2 → HCN + N | 5.60 × 10−13(Tn/300)0.88exp(−10100/Tn) | KIDA |
| 24 | CH + NH → HCN + H | 5.00 × 10−11 | KIDA |
| 25 | CH + NH → HNC + H | 5.00 × 10−11 | KIDA |
| 26 | CH + NO → CO + NH | 1.52 × 10−11 | Lo et al. (2020) |
| 27 | CH + NO → HCN + O | 1.31 × 10−10 | Lo et al. (2020) |
| 28 | CH + NO → HCO + N | 1.14 × 10−11 | Lo et al. (2020) |
| 29 | CH + NO → NCO + H | 2.47 × 10−11 | Lo et al. (2020) |
| 30 | CH + NO → CN + OH | 1.90 × 10−12 | Lo et al. (2020) |
| 31 | CH + NO → CNO + H | 5.70 × 10−12 | KIDA |
| 32 | CH + O → CO + H | 6.60 × 10−11 | Lo et al. (2020) |
| 33 | CH + O → HCO+ + e | 4.20 × 10−13exp(−850/Tn) | Lo et al. (2020) |
| 34 | CH + O → OH + C | 2.52 × 10−11exp(−2381/Tn) | Lo et al. (2020) |
| 35 | CH + O2 → CO + O + H | 1.20 × 10−11 | Lo et al. (2020) |
| 36 | CH + O2 → CO + OH | 8.00 × 10−12 | Lo et al. (2020) |
| 37 | CH + O2 → CO2 + H | 1.20 × 10−11 | Lo et al. (2020) |
| 38 | CH + O2 → HCO + O | 8.00 × 10−12 | Lo et al. (2020) |
| 39 | CH + OH → HCO + H | 1.44 × 10−11(Tn/300)0.50exp(−5000/Tn) | Lo et al. (2020) |
| 40 | CO + H → OH + C | 1.10 × 10−10(Tn/300)0.50exp(−77700/Tn) | KIDA |
| 41 | CO + O2 → CO2 + O | 5.99 × 10−12exp(−24075/Tn) | Lo et al. (2020) |
| 42 | CO + OH → CO2 + H | 1.50 × 10−13 | Lo et al. (2020) |
| 43 | CO2 + H → CO + OH | 3.38 × 10−10exp(−13163/Tn) | Lo et al. (2020) |
| 44 | CO2 + N → NO + CO | 3.20 × 10−13exp(−1710/Tn) | Lo et al. (2020) |
| 45 | CO2 + O → O2 + CO | 2.46 × 10−11exp(−26567/Tn) | Lo et al. (2020) |
| 46 | H + H2 → H + H + H | 1.00 × 10−10exp(−52000/Tn) | KIDA |
| 47 | H + N → NH + hv | 8.56 × 10−21(Tn/300)0.18exp(−6.51/Tn) | KIDA |
| 48 | H + NH → H2 + N | 1.73 × 10−11(Tn/300)0.50exp(−2400/Tn) | Lo et al. (2020) |
| 49 | H + NO → NH + O | 9.27 × 10−10(Tn/300)−0.10exp(−35200/Tn) | Lo et al. (2020) |
| 50 | H + NO → N + OH | 3.60 × 10−10exp(−24900/Tn) | KIDA |
| 51 | H + O → OH + hv | 9.90 × 10−19(Tn/300)−0.38 | Lo et al. (2020) |
| 52 | H + O2 → OH + O | 2.61 × 10−10exp(−8156/Tn) | Lo et al. (2020) |
| 53 | H + OH → H2O + hv | 4.00 × 10−18(Tn/300)−2.0 | KIDA |
| 54 | H + OH → H2 + O | 6.99 × 10−14(Tn/300)2.80exp(−1950/Tn) | Lo et al. (2020) |
| 55 | H2 + He → H + H + He | 1.00 × 10−11exp(−52000/Tn) | KIDA |
| 56 | H2 + N → NH + H | 2.66 × 10−10exp(−12600/Tn) | KIDA |
| 57 | H2 + NH → H + NH2 | 5.96 × 10−11exp(−7780/Tn) | KIDA |
| 58 | H2 + O → OH + H | 3.14 × 10−13(Tn/300)2.70exp(−3150/Tn) | Lo et al. (2020) |
| 59 | H2 + O2 → HO2 + H | 2.40 × 10−10exp(−28500/Tn) | Lo et al. (2020) |
| 60 | H2 + O2 → OH + OH | 3.16 × 10−10exp(−21890/Tn) | Lo et al. (2020) |
| 61 | H2 + OH → H2O + H | 2.80 × 10−12exp(−1800/Tn) | Lo et al. (2020) |
| 62 | N + NH → N2 + H | 4.98 × 10−11 | Lo et al. (2020) |
| 63 | N + NO → N2 + O | 2.10 × 10−11exp(100/Tn) | Lo et al. (2020) |
| 64 | N + O2 → NO + O | 1.50 × 10−11exp(−3600/Tn) | Lo et al. (2020) |
| 65 | N + OH → NH + O | 1.88 × 10−11(Tn/300)0.10exp(−10700/Tn) | Lo et al. (2020) |
| 66 | N + OH → NO + H | 5.75 × 10−11(Tn/300)−0.20 | Lo et al. (2020) |
| 67 | N2 + O → NO + N | 2.51 × 10−10exp(−38600/Tn) | KIDA |
| 68 | N2 + O2 → N2O + O | 1.00 × 10−10exp(−55200/Tn) | KIDA |
| 69 | NH + NH → N2 + H + H | 1.16 × 10−9 | Lo et al. (2020) |
| 70 | NH + NH → N2 + H2 | 1.70 × 10−11 | Lo et al. (2020) |
| 71 | NH + NH → NH2 + N | 1.81 × 10−13(Tn/300)1.80exp(70/Tn) | Lo et al. (2020) |
| 72 | NH + NO → N2 + O + H | 7.40 × 10−10exp(−10540/Tn) | Lo et al. (2020) |
| 73 | NH + NO → N2O + H | 5.33 × 10−n(Tn/300)−0.78exp(−40/Tn) | Lo et al. (2020) |
| 74 | NH + NO → N2 + OH | 1.33 × 10−11(Tn/300)−0.78exp(−40/Tn) | Lo et al. (2020) |
| 75 | NH + O → NO + H | 1.80 × 10−10exp(−300/Tn) | Lo et al. (2020) |
| 76 | NH + O → OH + N | 1.16 × 10−11 | Lo et al. (2020) |
| 77 | NH + O2 → HNO + O | 4.00 × 10−11exp(−6970/Tn) | Lo et al. (2020) |
| 78 | NH + O2 → NO + OH | 1.50 × 10−13exp(−770/Tn) | Lo et al. (2020) |
| 79 | NH + OH → N + H2O | 3.10 × 10−12(Tn/300)1.20 | Lo et al. (2020) |
| 80 | NH + OH → HNO + H | 3.30 × 10−11 | Lo et al. (2020) |
| 81 | NH + OH → NH2 + O | 2.94 × 10−12(Tn/300)0.10exp(−5800/Tn) | Lo et al. (2020) |
| 82 | NH + OH → NO + H2 | 4.16 × 10−11 | Lo et al. (2020) |
| 83 | NO + O → O2 + N | 1.18 × 10−11exp(−20413/Tn) | Lo et al. (2020) |
| 84 | NO + O2 → NO2 + O | 2.80 × 10−12exp(−23400/Tn) | Lo et al. (2020) |
| 85 | NO + OH → NO2 + H | 5.20 × 10−12exp(−15100/Tn) | Lo et al. (2020) |
| 86 | O + OH → O2 + H | 1.80 × 10−11exp(180/Tn) | Lo et al. (2020) |
| 87 | OH + OH → H2O + O | 1.80 × 10−12 | Lo et al. (2020) |
| 88 | O(1D) + CO → CO2 + hv | 8.00 × 10−11 | Lo et al. (2020) |
| 89 | O(1D) + H2 → OH + H | 1.20 × 10−10 | Lo et al. (2020) |
| 90 | N(2D) + CO2 → NO + CO | 3.60 × 10−13 | Lo et al. (2020) |
| 91 | N(2D) + H2 → NH + H | 4.20 × 10−11exp(−880/Tn) | Lo et al. (2020) |
| 92 | N(2D) + NO → O + N2 | 2.00 × 10−11 | Vuitton et al. (2019) |
| 93 | N(2D) + NO → O(1D) + N2 | 2.00 × 10−11 | Vuitton et al. (2019) |
| 94 | N(2D) + NO → O(1S) + N2 | 2.00 × 10−11 | Vuitton et al. (2019) |
| 95 | N(2D) + O2 → O + NO | 4.85 × 10−12exp(−185/Tn) | Herron (1999) |
| 96 | N(2D) + O2 → O(1D) + NO | 4.85 × 10−12exp(−185/Tn) | Herron (1999) |
| 97 | N(2D) + OH → NO + H | 4.50 × 10−11 | Vuitton et al. (2019) |
| 98 | N(2P) + O2 → O + NO | 1.03 × 10−12exp(−60/Tn) | FS01 |
| 99 | N(2P) + O2 → O(ŁD) + NO | 1.03 × 10−12exp(−60/Tn) | FS01 |
| 100 | N(2P) + O2 → O(1S) + NO | 1.03 × 10−12exp(−60/Tn) | FS01 |
| 101 | C(1D) + CO2 → CO + CO | 3.96 × 10−11exp(20.2/Tn) | Nuñez-Reyes & Hickson (2018) |
| 102 | C(1D) + H2 → CH + H | 3.26 × 10−10exp(−10.8/Tn) | Hickson et al. (2015) |
| 103 | C(1D) + NO → CN + O | 1.42 × 10−11exp(48.9/Tn) | Nuñez-Reyes & Hickson (2018) |
| 104 | C(1D) + NO → CO + N(2D) | 2.13 × 10−11exp(48.9/Tn) | Nuñez-Reyes & Hickson (2018) |
| 105 | C(1D) + O2 → CO + O | 2.73 × 10−11exp(6.73/Tn) | Nuñez-Reyes & Hickson (2018) |
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.