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Table C.1

Compilation of ion-neutral reactions*

No. Reaction Rate coefficient cm3 s−1 Reference
1 Ar+ + CO → CO+ + Ar 4.40 × 10−11 Lo et al. (2020)
2 Ar++CO2CO2++Ar${\rm{A}}{{\rm{r}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{Ar}}$ 4.80 × 10−10 Lo et al. (2020)
3 Ar+ + H2 → ArH+ + H 8.72 × 10−10 Lo et al. (2020)
4 Ar++H2H2++Ar${\rm{A}}{{\rm{r}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{Ar}}$ 1.78 × 10−11 Lo et al. (2020)
5 Ar++N2N2++Ar${\rm{A}}{{\rm{r}}^ + } + {{\rm{N}}_2} \to {\rm{N}}_2^ + + {\rm{Ar}}$ 1.10 × 10−11 Lo et al. (2020)
6 Ar+ + NO → NO+ + Ar 3.10 × 10−10 Lo et al. (2020)
7 Ar++O2O2++Ar${\rm{A}}{{\rm{r}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{Ar}}$ 4.60 × 10−11 Lo et al. (2020)
8 ArH+ + C → CH+ + Ar 1.02 × 10−9 Lo et al. (2020)
9 ArH+ + CO → HCO+ + Ar 1.25 × 10−9 Lo et al. (2020)
10 ArH+ + CO2 → HOCO+ + Ar 1.10 × 10−9 Lo et al. (2020)
11 ArH++H2H3++Ar${\rm{Ar}}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{Ar}}$ 6.30 × 10−10 Lo et al. (2020)
12 ArH+ + N2 → N2H+ + Ar 8.00 × 10−10 Lo et al. (2020)
13 ArH+ + O → OH+ + Ar 5.90 × 10−10 Lo et al. (2020)
14 ArH++O2HO2++Ar${\rm{Ar}}{{\rm{H}}^ + } + {{\rm{O}}_2} \to {\rm{HO}}_2^ + + {\rm{Ar}}$ 5.05 × 10−10 Lo et al. (2020)
15 C++CC2++hv${{\rm{C}}^ + } + {\rm{C}} \to {\rm{C}}_2^ + + {\rm{h}}v$ 4.01 × 10−18(Ti/300)0.17exp(−101.5/Ti) Lo et al. (2020)
16 C++CHC2++H${{\rm{C}}^ + } + {\rm{CH}} \to {\rm{C}}_2^ + + {\rm{H}}$ 3.80 × 10−10(Ti/300)−0.50 Lo et al. (2020)
17 C+ + CH → CH+ + C 3.80 × 10−10(Ti/300)−0.50 Lo et al. (2020)
18 C+ + CO2 → CO+ + CO 9.90 × 10−10 Lo et al. (2020)
19 C++CO2CO2++C${{\rm{C}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{C}}$ 1.10 × 10−10 Lo et al. (2020)
20 C+ + H → H+ + C 9.28 × 10−19(Ti/300)1.30exp(−15900/Ti) KIDA
21 C+ + H → CH+ + hv 1.70 × 10−17 Lo et al. (2020)
22 C++H2CH2++hv${{\rm{C}}^ + } + {{\rm{H}}_2} \to {\rm{CH}}_2^ + + {\rm{h}}v$ 2.00 × 10−16(Ti/300)−1.30exp(−23/Ti) Lo et al. (2020)
23 C+ + H2 → CH+ + H 7.40 × 10−10exp(−4537/Ti) Lo et al. (2020)
24 C+ + N → CN+ + hv 1.08 × 10−18(Ti/300)0.071exp(−57.5/Ti) Lo et al. (2020)
25 C+ + NH → CN+ + H 7.79 × 10−10(Ti/300)−0.50 Lo et al. (2020)
26 C+ + NO → N+ + CO 9.02 × 10−10 KIDA
27 C+ + NO → NO+ + C 7.50 × 10−10 Lo et al. (2020)
28 C+ + O → CO+ + hv 3.14 × 10−18(Ti/300)−0.15exp(−68/Ti) Lo et al. (2020)
29 C+ + O2 → CO+ + O 3.48 × 10−10 Lo et al. (2020)
30 C+ + O2 → O+(4S) + CO 5.22 × 10−10 Lo et al. (2020)
31 C+ + OH → CO+ + H 7.68 × 10−10(Ti/300)−0.50 Lo et al. (2020)
32 CH++CC2++H${\rm{C}}{{\rm{H}}^ + } + {\rm{C}} \to {\rm{C}}_2^ + + {\rm{H}}$ 1.32 × 10−9(Ti/300)0.10exp(−2.19/Ti) Rampino & Suleimanov (2016)
33 CH++CHC2++H2${\rm{C}}{{\rm{H}}^ + } + {\rm{CH}} \to {\rm{C}}_2^ + + {{\rm{H}}_2}$ 1.34 × 10−9(0.62 + 1.587(300/Ti)0.50) KIDA
34 CH+ + CO → HCO+ + C 4.04 × 10−13(Ti/300)−0.50 Lo et al. (2020)
35 CH+ + CO2 → HCO+ + CO 1.60 × 10−9 Lo et al. (2020)
36 CH+ + H → C+ + H2 7.84 × 10−10(Ti/300)−0.22 Vuitton et al. (2019)
37 CH++H2CH2++H${\rm{C}}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{CH}}_2^ + + {\rm{H}}$ 1.20 × 10−9 Lo et al. (2020)
38 CH+ + N → CN+ + H 1.90 × 10−10 Lo et al. (2020)
39 CH+ + N → H+ + CN 1.90 × 10−12 KIDA
40 CH+ + NH → CN+ + H2 7.62 × 10−10(Ti/300)−0.50 Lo et al. (2020)
41 CH+ + NO → NO+ + CH 7.60 × 10−10 Lo et al. (2020)
42 CH+ + O → CO+ + H 1.75 × 10−10 Vuitton et al. (2019)
43 CH+ + O → H+ + CO 1.75 × 10−10 Vuitton et al. (2019)
44 CH+ + O2 → HCO+ + O 9.70 × 10−10 KIDA
45 CH+ + O2 → CO+ + OH 1.00 × 10−11 KIDA
46 CH+ + O2 → O+(4S) + HCO 1.00 × 10−11 KIDA
47 CH+ + OH → CO+ + H2 7.51 × 10−10(Ti/300)−0.50 Lo et al. (2020)
48 CH2++CC2H++H${{\rm{CH}}_2^ + + {\rm{C}} \to {{\rm{C}}_2}{{\rm{H}}^ + } + {\rm{H}}}$ 1.20 × 10−9 KIDA
49 CH2++CHC2H2++H${{\rm{CH}}_2^ + + {\rm{CH}} \to {{\rm{C}}_2}{\rm{H}}_2^ + + {\rm{H}}}$ 1.31 × 10−9(0.62 + 1.587(300/Ti)0.50) KIDA
50 CH2++CO2H2CO++CO${{\rm{CH}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {{\rm{H}}_2}{\rm{C}}{{\rm{O}}^ + } + {\rm{CO}}}$ 1.24 × 10−9 Vuitton et al. (2019)
51 CH2++HCH++H2${{\rm{CH}}_2^ + + {\rm{H}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 1.20 × 10−9 KIDA
52 CH2++H2CH3++H${{\rm{CH}}_2^ + + {{\rm{H}}_2} \to {\rm{CH}}_3^ + + {\rm{H}}}$ 1.16 × 10−9 Vuitton et al. (2019)
53 CH2++NCN++H2${{\rm{CH}}_2^ + + {\rm{N}} \to {\rm{C}}{{\rm{N}}^ + } + {{\rm{H}}_2}}$ 1.10 × 10−10 Vuitton et al. (2019)
54 CH2++NHCN++H${{\rm{CH}}_2^ + + {\rm{N}} \to {\rm{HC}}{{\rm{N}}^ + } + {\rm{H}}}$ 1.10 × 10−10 Vuitton et al. (2019)
55 CH2++NHHCNH++H${{\rm{CH}}_2^ + + {\rm{NH}} \to {\rm{HCN}}{{\rm{H}}^ + } + {\rm{H}}}$ 1.05 × 10−9(0.62 + 2.097(300/Ti)0.50) KIDA
56 CH2++NONO++CH2${{\rm{CH}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{CH}}}$ 9.86 × 10−10(1 + 0.0397(300/Ti)0.5 + 0.016(300/Ti)) KIDA
57 CH2++OHCO++H${{\rm{CH}}_2^ + + {\rm{O}} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{H}}}$ 7.50 × 10−10 KIDA
58 CH2++O2HCO++OH${{\rm{CH}}_2^ + + {{\rm{O}}_2} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{OH}}}$ 9.10 × 10−10 KIDA
59 CH2++O2HOCO++H${{\rm{CH}}_2^ + + {{\rm{O}}_2} \to {\rm{HOC}}{{\rm{O}}^ + } + {\rm{H}}}$ 4.70 × 10−10 KIDA
60 CH2++OHH2CO++H${{\rm{CH}}_2^ + + {\rm{OH}} \to {{\rm{H}}_2}{\rm{C}}{{\rm{O}}^ + } + {\rm{H}}}$ 8.75 × 10−10(0.62 + 2.622(300/Ti)0.50) KIDA
61 CO+ + C → C+ + CO 1.10 × 10−10 Lo et al. (2020)
62 CO+ + CH → CH+ + CO 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
63 CO+ + CH → HCO+ + C 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
64 CO++CO2CO2++CO${\rm{C}}{{\rm{O}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{CO}}$ 1.10 × 10−9 Lo et al. (2020)
65 CO+ + H → H+ + CO 4.00 × 10−10 Lo et al. (2020)
66 CO+ + H2 → HCO+ + H 7.50 × 10−10 Lo et al. (2020)
67 CO+ + H2 → HOC+ + H 7.50 × 10−10 Lo et al. (2020)
68 CO+ + N → NO+ + C 1.00 × 10−11 Lo et al. (2020)
69 CO+ + NH → HCO+ + N 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
70 CO+ + NH → NH+ + CO 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
71 CO+ + NO → NO+ + CO 4.20 × 10−10 Lo et al. (2020)
72 CO+ + O → O+(4S) + CO 4.00 × 10−11 Lo et al. (2020)
73 CO++O2O2++CO${\rm{C}}{{\rm{O}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{CO}}$ 1.50 × 10−10 Lo et al. (2020)
74 CO+ + OH → HCO+ + O 3.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
75 CO+ + OH → OH+ + CO 3.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
76 CO2++COCO++CO2${\rm{CO}}_2^ + + {\rm{CO}} \to {\rm{C}}{{\rm{O}}^ + } + {\rm{C}}{{\rm{O}}_2}$ 1.90 × 10−12 Vuitton et al. (2019)
77 CO2++HHCO++O${{\rm{CO}}_2^ + + {\rm{H}} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{O}}}$ 4.47 × 10−10 Lo et al. (2020)
78 CO2++HH++CO2${{\rm{CO}}_2^ + + {\rm{H}} \to {{\rm{H}}^ + } + {\rm{C}}{{\rm{O}}_2}}$ 5.53 × 10−11 Lo et al. (2020)
79 CO2++H2HOCO++H${{\rm{CO}}_2^ + + {{\rm{H}}_2} \to {\rm{HOC}}{{\rm{O}}^ + } + {\rm{H}}}$ 9.52 × 10−10(Ti/300)−0.15 Lo et al. (2020)
80 CO2++NCO++NO${{\rm{CO}}_2^ + + {\rm{N}} \to {\rm{C}}{{\rm{O}}^ + } + {\rm{NO}}}$ 8.00 × 10−12 Lo et al. (2020)
81 CO2++N(2D)N++CO2${{\rm{CO}}_2^ + + {\rm{N}}\left( {^2{\rm{D}}} \right) \to {{\rm{N}}^ + } + {\rm{C}}{{\rm{O}}_2}}$ 2.00 × 10−10 FS01
82 CO2++NONO++CO2${{\rm{CO}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{C}}{{\rm{O}}_2}}$ 1.23 × 10−10 Lo et al. (2020)
83 CO2++OO2++CO${{\rm{CO}}_2^ + + {\rm{O}} \to {\rm{O}}_2^ + + {\rm{CO}}}$ 1.64 × 10−10 FS01
84 CO2++OO+(4 S)+CO2${{\rm{CO}}_2^ + + {\rm{O}} \to {{\rm{O}}^ + }\left( {^4{\rm{S}}} \right) + {\rm{C}}{{\rm{O}}_2}}$ 9.60 × 10−11 FS01
85 CO2++O2O2++CO2${{\rm{CO}}_2^ + + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{C}}{{\rm{O}}_2}}$ 5.50 × 10−11 Lo et al. (2020)
86 H+ + C → C+ + H 1.00 × 10−14 KIDA
87 H+ +CH → CH+ + H 1.90 × 10−9(Ti/300)−0.50 Lo et al. (2020)
88 H+ + CO2 → HCO+ + O 3.80 × 10−9 Lo et al. (2020)
89 H++HH2++hv${{\rm{H}}^ + } + {\rm{H}} \to {\rm{H}}_2^ + + {\rm{h}}v$ 1.15 × 10−18(Ti/300)1.49exp(−228/Ti) Lo et al. (2020)
90 H++H2H3++hv${{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{h}}v$ 1.30 × 10−16 Vuitton et al. (2019)
91 H++H2H2++H${{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{H}}$ 6.40 × 10−10exp(−21300/Ti) KIDA
92 H+ + H2 → H+ + H + H 3.00 × 10−11(Ti/300)0.50exp(−52000/Ti) KIDA
93 H+ + He → HeH+ + hv 7.99 × 10−20(Ti/300)−0.24 Lo et al. (2020)
94 H+ + N → N+ + H 9.82 × 10−12(Ti/300)−0.23exp(−262/Ti) KIDA
95 H+ + NH → NH+ + H 2.10 × 10−9(Ti/300)−0.50 Lo et al. (2020)
96 H+ + NO → NO+ + H 1.90 × 10−9 Lo et al. (2020)
97 H+ + O → O+ (4S) + H 3.75 × 10−10 Lo et al. (2020)
98 H++O2O2++H${{\rm{H}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{H}}$ 1.17 × 10−9 Lo et al. (2020)
99 H+ + OH → OH+ + H 2.10 × 10−9(Ti/300)−0.50 Lo et al. (2020)
100 H2++ArArH++H${{\rm{H}}_2^ + + {\rm{Ar}} \to {\rm{Ar}}{{\rm{H}}^ + } + {\rm{H}}}$ 2.10 × 10−9 Lo et al. (2020)
101 H2++CCH++H${{\rm{H}}_2^ + + {\rm{C}} \to {\rm{C}}{{\rm{H}}^ + } + {\rm{H}}}$ 2.40 × 10−9 Lo et al. (2020)
102 H2++CHCH2++H${{\rm{H}}_2^ + + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{H}}}$ 7.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
103 H2++CHCH++H2${{\rm{H}}_2^ + + {\rm{CH}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 7.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
104 H2++COCO++H2${{\rm{H}}_2^ + + {\rm{CO}} \to {\rm{C}}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 6.44 × 10−10 Lo et al. (2020)
105 H2++COHCO++H${{\rm{H}}_2^ + + {\rm{CO}} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{H}}}$ 2.90 × 10−9 Lo et al. (2020)
106 H2++CO2HOCO++H${{\rm{H}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{HOC}}{{\rm{O}}^ + } + {\rm{H}}}$ 2.35 × 10−9 Lo et al. (2020)
107 H2++CO2CO++H2O${{\rm{H}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{C}}{{\rm{O}}^ + } + {{\rm{H}}_2}{\rm{O}}}$ 1.40 × 10−9 KIDA
108 H2++CO2CO2++H2${{\rm{H}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {{\rm{H}}_2}}$ 1.40 × 10−9 KIDA
109 H2++HH++H2${{\rm{H}}_2^ + + {\rm{H}} \to {{\rm{H}}^ + } + {{\rm{H}}_2}}$ 6.40 × 10−10 Lo et al. (2020)
110 H2++H2H3++H${{\rm{H}}_2^ + + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{H}}}$ 2.00 × 10−9 Lo et al. (2020)
111 H2++HeHeH++H${{\rm{H}}_2^ + + {\rm{He}} \to {\rm{He}}{{\rm{H}}^ + } + {\rm{H}}}$ 1.35 × 10−10 Lo et al. (2020)
112 H2++NNH++H${{\rm{H}}_2^ + + {\rm{N}} \to {\rm{N}}{{\rm{H}}^ + } + {\rm{H}}}$ 1.90 × 10−9 Lo et al. (2020)
113 H2++N2N2H++H${{\rm{H}}_2^ + + {{\rm{N}}_2} \to {{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{H}}}$ 2.00 × 10−9 Lo et al. (2020)
114 H2++NHNH2++H${{\rm{H}}_2^ + + {\rm{NH}} \to {\rm{NH}}_2^ + + {\rm{H}}}$ 7.62 × 10−10(Ti/300)−0.50 Lo et al. (2020)
115 H2++NHNH++H2${{\rm{H}}_2^ + + {\rm{NH}} \to {\rm{N}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 7.62 × 10−10(Ti/300)−0.50 Lo et al. (2020)
116 H2++NOHNO++H${{\rm{H}}_2^ + + {\rm{NO}} \to {\rm{HN}}{{\rm{O}}^ + } + {\rm{H}}}$ 1.10 × 10−9 Lo et al. (2020)
117 H2++NONO++H2${{\rm{H}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 1.10 × 10−9 Lo et al. (2020)
118 H2++OOH++H${{\rm{H}}_2^ + + {\rm{O}} \to {\rm{O}}{{\rm{H}}^ + } + {\rm{H}}}$ 1.50 × 10−9 Lo et al. (2020)
119 H2++O2HO2++H${{\rm{H}}_2^ + + {{\rm{O}}_2} \to {\rm{HO}}_2^ + + {\rm{H}}}$ 1.92 × 10−9 Lo et al. (2020)
120 H2++O2O2++H2${{\rm{H}}_2^ + + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {{\rm{H}}_2}}$ 7.83 × 10−10 Lo et al. (2020)
121 H2++OHH2O++H${{\rm{H}}_2^ + + {\rm{OH}} \to {{\rm{H}}_2}{{\rm{O}}^ + } + {\rm{H}}}$ 7.62 × 10−10(Ti/300)−0.50 Lo et al. (2020)
122 H2++OHOH++H2${{\rm{H}}_2^ + + {\rm{OH}} \to {\rm{O}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 7.62 × 10−10(Ti/300)−0.50 Lo et al. (2020)
123 H2O+ + C → CH+ + OH 1.10 × 10−9 Lo et al. (2020)
124 H2O++CHCH2++OH${{\rm{H}}_2}{{\rm{O}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{OH}}$ 3.40 × 10−10(Ti/300)−0.50 Lo et al. (2020)
125 H2O+ + CH → CH+ + H2O 3.40 × 10−10(Ti/300)−0.50 Lo et al. (2020)
126 H2O+ + CO → HCO+ + OH 4.25 × 10−10 Lo et al. (2020)
127 H2O+ + H2 → H3O+ + H 7.60 × 10−10 Lo et al. (2020)
128 H2O+ + N → HNO+ + H 1.12 × 10−10 Lo et al. (2020)
129 H2O+ + N → NO+ + H2 2.80 × 10−11 Lo et al. (2020)
130 H2O+ + NH → H3O+ + N 7.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
131 H2O+ + NO → NO+ + H2O 4.60 × 10−10 Lo et al. (2020)
132 H2O++OO2++H2${{{\rm{H}}_2}{{\rm{O}}^ + } + {\rm{O}} \to {\rm{O}}_2^ + + {{\rm{H}}_2}}$ 4.00 × 10−11 Lo et al. (2020)
133 H2O++O2O2++H2O${{\rm{H}}_2}{{\rm{O}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {{\rm{H}}_2}{\rm{O}}$ 3.30 × 10−10 Lo et al. (2020)
134 H2O+ + OH → H3O+ + O 6.93 × 10−10(Ti/300)−0.50 Lo et al. (2020)
135 H3++ArArH++H2${{\rm{H}}_3^ + + {\rm{Ar}} \to {\rm{Ar}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 3.65 × 10−10 Lo et al. (2020)
136 H3++CCH++H2${{\rm{H}}_3^ + + {\rm{C}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 2.00 × 10−9 Lo et al. (2020)
137 H3++CHCH2++H2${{\rm{H}}_3^ + + {\rm{CH}} \to {\rm{CH}}_2^ + + {{\rm{H}}_2}}$ 1.20 × 10−9(Ti/300)−0.50 Lo et al. (2020)
138 H3++COHCO++H2${{\rm{H}}_3^ + + {\rm{CO}} \to {\rm{HC}}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 1.36 × 10−9(Ti/300)−0.142exp(3.41/Ti) Lo et al. (2020)
139 H3++COHOC++H2${{\rm{H}}_3^ + + {\rm{CO}} \to {\rm{HO}}{{\rm{C}}^ + } + {{\rm{H}}_2}}$ 8.49 × 10−10(Ti/300)0.0661exp(−5.21/Ti) Lo et al. (2020)
140 H3++CO2HOCO++H2${{\rm{H}}_3^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{HOC}}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 2.50 × 10−9 Lo et al. (2020)
141 H3++HH2++H2${{\rm{H}}_3^ + + {\rm{H}} \to {\rm{H}}_2^ + + {{\rm{H}}_2}}$ 2.10 × 10−9exp(−20000/Ti) KIDA
142 H3++H2H3++H+H${{\rm{H}}_3^ + + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{H}} + {\rm{H}}}$ 3.00 × 10−11(Ti/300)0.50exp(−52000/Ti) KIDA
143 H3++NNH2++H${{\rm{H}}_3^ + + {\rm{N}} \to {\rm{NH}}_2^ + + {\rm{H}}}$ 3.90 × 10−10 Lo et al. (2020)
144 H3++NNH++H2${{\rm{H}}_3^ + + {\rm{N}} \to {\rm{N}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 2.60 × 10−10 Lo et al. (2020)
145 H3++N2N2H++H2${{\rm{H}}_3^ + + {{\rm{N}}_2} \to {{\rm{N}}_2}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 1.63 × 10−9 Lo et al. (2020)
146 H3++NHNH2++H2${{\rm{H}}_3^ + + {\rm{NH}} \to {\rm{NH}}_2^ + + {{\rm{H}}_2}}$ 1.30 × 10−9(Ti/300)−0.50 Lo et al. (2020)
147 H3++NOHNO++H2${{\rm{H}}_3^ + + {\rm{NO}} \to {\rm{HN}}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 1.94 × 10−9 Lo et al. (2020)
148 H3++OH2O++H${{\rm{H}}_3^ + + {\rm{O}} \to {{\rm{H}}_2}{{\rm{O}}^ + } + {\rm{H}}}$ 3.42 × 10−10(Ti/300)−0.156exp(−1.4/Ti) Lo et al. (2020)
149 H3++OOH++H2${{\rm{H}}_3^ + + {\rm{O}} \to {\rm{O}}{{\rm{H}}^ + } + {{\rm{H}}_2}}$ 7.97 × 10−10(Ti/300) −0.156exp(1.4/Ti) Lo et al. (2020)
150 H3++O2HO2++H2${{\rm{H}}_3^ + + {{\rm{O}}_2} \to {\rm{HO}}_2^ + + {{\rm{H}}_2}}$ 6.70 × 10−10 Lo et al. (2020)
151 H3++OHH2O++H2${{\rm{H}}_3^ + + {\rm{OH}} \to {{\rm{H}}_2}{{\rm{O}}^ + } + {{\rm{H}}_2}}$ 1.30 × 10−9(Ti/300)−0.50 Lo et al. (2020)
152 H3O+ + C → HCO+ + H2 1.00 × 10−11 Lo et al. (2020)
153 H3O++CHCH2++H2O${{\rm{H}}_3}{{\rm{O}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {{\rm{H}}_2}{\rm{O}}$ 6.81 × 10−10(Ti/300)−0.50 Lo et al. (2020)
154 H3O+ + H → H2O+ + H2 6.10 × 10−10exp(−20500/Ti) KIDA
155 H3O+ + H2 → H3O+ + H + H 3.00 × 10−11(Ti/300)0.50exp(−52000/Ti) KIDA
156 HCO+ + C → CH+ + CO 1.10 × 10−9 Lo et al. (2020)
157 HCO+ + CH → CH+ + CO 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
158 HCO+ + CO2 → HOCO+ + CO 1.00 × 10−9exp(−5000/Ti) KIDA
159 HCO+ + H → CO+ + H2 1.30 × 10−9exp(−24500/Ti) KIDA
160 HCO+ + H2 → HCO+ + H + H 3.00 × 10−11(Ti/300)0.50exp(−52000/Ti) KIDA
161 HCO+ + N2 → N2H+ + CO 8.80 × 10−10exp(−11200/Ti) KIDA
162 HCO+ + NH → NH+ + CO 6.41 × 10−10(Ti/300)−0.50 Lo et al. (2020)
163 HCO+ +O2 → HOCO+ + O 1.00 × 10−9exp(−1450/Ti) KIDA
164 HCO+ + OH → H2O+ + CO 6.18 × 10−10(Ti/300)−0.50 Lo et al. (2020)
165 HCO+ + OH → HOCO+ + H 9.99 × 10−10(Ti/300)−0.50 Lo et al. (2020)
166 He+ + C → C+ + He 6.30 × 10−15(Ti/300)0.75 Lo et al. (2020)
167 He+ + CH → CH+ + He 5.00 × 10−10(Ti/300)−0.50 Lo et al. (2020)
168 He+ + CH → C+ + He + H 1.10 × 10−9(Ti/300)−0.50 Lo et al. (2020)
169 He+ + CO → C+ + O + He 1.60 × 10−9 Lo et al. (2020)
170 He++CO2CO2++He${\rm{H}}{{\rm{e}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{He}}$ 5.00 × 10−11 Lo et al. (2020)
171 He+ + CO2 → CO+ + O + He 7.80 × 10−10 Lo et al. (2020)
172 He+ + CO2 → C+ + O2 + He 2.00 × 10−11 Lo et al. (2020)
173 He++CO2O2++C+He${\rm{H}}{{\rm{e}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{C}} + {\rm{He}}$ 1.10 × 10−11 Lo et al. (2020)
174 He+ + CO2 → O+(4S) + CO + He 1.40 × 10−10 Lo et al. (2020)
175 He+ + H → HeH+ + hv 4.16 × 10−16(Ti/300)−0.37 Lo et al. (2020)
176 He+ + H → H+ + He 1.20 × 10−15(Ti/300)0.25 Lo et al. (2020)
177 He++H2H2++He${\rm{H}}{{\rm{e}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{He}}$ 1.70 × 10−14 Lo et al. (2020)
178 He+ + H2 → H+ + He + H 8.30 × 10−14 Lo et al. (2020)
179 He++N2N2++He${\rm{H}}{{\rm{e}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{He}}$ 5.20 × 10−10 Lo et al. (2020)
180 He+ + N2 → N+ + N+ He 7.80 × 10−10 Lo et al. (2020)
181 He+ + NH → N+ + He + H 1.10 × 10−9(Ti/300)−0.50 Lo et al. (2020)
182 He+ + NO → N+ + O + He 1.35 × 10−9 Lo et al. (2020)
183 He+ + NO → O+(4S) + N+ He 1.02 × 10−10 Lo et al. (2020)
184 He+ + O → O+(4S) + He 1.00 × 10−13 FS01
185 He+ + O2 → O+(2D) + O + He 2.37 × 10−10 FS01
186 He+ + O2 → O+(4S) + O + He 2.39 × 10−11 FS01
187 He+ + O2 → O+(2P) + O + He 6.04 × 10−10 FS01
188 He+ + O2 → O+(4S) + O(1D) + He 4.60 × 10−11 FS01
189 He++O2O2++He${\rm{H}}{{\rm{e}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{He}}$ 9.20 × 10−12 FS01
190 He+ + OH → O+(4S) + He + H 1.10 × 10−9(Ti/300)−0.50 Lo et al. (2020)
191 HeH++HH2++He${{\rm{He}}{{\rm{H}}^ + } + {\rm{H}} \to {\rm{H}}_2^ + + {\rm{He}}}$ 9.00 × 10−10 KIDA
192 HeH++H2H3++He${{\rm{He}}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{He}}}$ 1.80 × 10−9 KIDA
193 HNO+ + C → CH+ + NO 1.00 × 10−9 Lo et al. (2020)
194 HNO++CHCH2++NO${\rm{HN}}{{\rm{O}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{NO}}$ 6.18 × 10−10(Ti/300)−0.50 Lo et al. (2020)
195 HNO+ + CO → HCO+ + NO 8.60 × 10−10 Lo et al. (2020)
196 HNO+ + CO2 → HOCO+ + NO 9.40 × 10−10 Lo et al. (2020)
197 HNO+ + N2 → N2H+ + NO 1.00 × 10−11 Lo et al. (2020)
198 HNO+ + NH → NH2+ + NO 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
199 HNO+ + NO → NO+ + HNO 7.00 × 10−10 Lo et al. (2020)
200 HNO++ONO2++H${\rm{HN}}{{\rm{O}}^ + } + {\rm{O}} \to {\rm{NO}}_2^ + + {\rm{H}}$ 1.00 × 10−12 Lo et al. (2020)
201 HNO+ + OH → H2O+ + NO 6.18 × 10−10(Ti/300)−0.50 Lo et al. (2020)
202 HO2++CCH++O2${{\rm{HO}}_2^ + + {\rm{C}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{O}}_2}}$ 1.00 × 10−9 Lo et al. (2020)
203 HO2++CHCH2++O2${{\rm{HO}}_2^ + + {\rm{CH}} \to {\rm{CH}}_2^ + + {{\rm{O}}_2}}$ 6.18 × 10−10(Ti/300)−0.50 Lo et al. (2020)
204 HO2++COHCO++O2${{\rm{HO}}_2^ + + {\rm{CO}} \to {\rm{HC}}{{\rm{O}}^ + } + {{\rm{O}}_2}}$ 8.40 × 10−10 Lo et al. (2020)
205 HO2++CO2HOCO++O2${{\rm{HO}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{HOC}}{{\rm{O}}^ + } + {{\rm{O}}_2}}$ 1.10 × 10−9 Lo et al. (2020)
206 HO2++H2H3++O2${{\rm{HO}}_2^ + + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {{\rm{O}}_2}}$ 3.30 × 10−10 Lo et al. (2020)
207 HO2++NNO2++H${{\rm{HO}}_2^ + + {\rm{N}} \to {\rm{NO}}_2^ + + {\rm{H}}}$ 1.00 × 10−12 Lo et al. (2020)
208 HO2++N2N2H++O2${{\rm{HO}}_2^ + + {{\rm{N}}_2} \to {{\rm{N}}_2}{{\rm{H}}^ + } + {{\rm{O}}_2}}$ 8.00 × 10−10 Lo et al. (2020)
209 HO2++NHNH2++O2${{\rm{HO}}_2^ + + {\rm{NH}} \to {\rm{NH}}_2^ + + {{\rm{O}}_2}}$ 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
210 HO2++NOHNO++O2${{\rm{HO}}_2^ + + {\rm{NO}} \to {\rm{HN}}{{\rm{O}}^ + } + {{\rm{O}}_2}}$ 7.70 × 10−10 Lo et al. (2020)
211 HO2++OOH++O2${{\rm{HO}}_2^ + + {\rm{O}} \to {\rm{O}}{{\rm{H}}^ + } + {{\rm{O}}_2}}$ 6.20 × 10−10 Lo et al. (2020)
212 HO2++OHH2O++O2${{\rm{HO}}_2^ + + {\rm{OH}} \to {{\rm{H}}_2}{{\rm{O}}^ + } + {{\rm{O}}_2}}$ 6.12 × 10−10(Ti/300)−0.50 Lo et al. (2020)
213 HOC+ + CO → HCO+ + CO 6.00 × 10−10 Lo et al. (2020)
214 HOC+ + CO2 → HOCO+ + CO 9.45 × 10−10 Lo et al. (2020)
215 HOC++H2H3++CO${\rm{HO}}{{\rm{C}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{CO}}$ 2.68 × 10−10 Lo et al. (2020)
216 HOC+ + H2 → HCO+ + H2 3.80 × 10−10 Lo et al. (2020)
217 HOC+ + N2 → N2H+ + CO 6.70 × 10−10 Lo et al. (2020)
218 HOC+ + NO → HNO+ + CO 7.10 × 10−10 Lo et al. (2020)
219 HOC++O2HO2++CO${\rm{HO}}{{\rm{C}}^ + } + {{\rm{O}}_2} \to {\rm{HO}}_2^ + + {\rm{CO}}$ 1.90 × 10−10 Lo et al. (2020)
220 HOCO+ + C → CH+ + CO2 1.00 × 10−9 Lo et al. (2020)
221 HOCO+ + CO → HCO+ + CO2 7.80 × 10−10 Lo et al. (2020)
222 HOCO+ + H → HCO+ + OH 1.00 × 10−9exp(−7500/Ti) KIDA
223 HOCO+ + N2 → N2H+ + CO2 1.40 × 10−9exp(−6400/Ti) KIDA
224 HOCO+ + NO → HNO+ + CO2 1.00 × 10−10 KIDA
225 HOCO+ + O → HCO+ + O2 5.80 × 10−10 Lo et al. (2020)
226 N+ + CH → CN+ + H 6.55 × 10−10(0.62 + 1.587(300/Ti)0.5) KIDA
227 N+ + CH → CH+ + N 6.55 × 10−10(0.62 + 1.587(300/Ti)0.5) KIDA
228 N+ + CO → CO+ + N 4.93 × 10−10 Lo et al. (2020)
229 N+ + CO → C+ + NO 5.60 × 10−12 Lo et al. (2020)
230 N+ + CO → NO+ + C 6.16 × 10−11 Lo et al. (2020)
231 N++CO2CO2++N${{\rm{N}}^ + } + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{N}}$ 9.18 × 10−10 Lo et al. (2020)
232 N+ + CO2 → CO+ + NO 2.02 × 10−10 Lo et al. (2020)
233 N+ + H → H+ + N 3.13 × 10−12(Ti/300)−0.31exp(−508/Ti) KIDA
234 N+ + H2 → NH+ + H 5.00 × 10−10exp(−85/Ti) Lo et al. (2020)
235 N++NN2++hv${{\rm{N}}^ + } + {\rm{N}} \to {\rm{N}}_2^ + + {\rm{h}}v$ 3.71 × 10−18(Ti/300)0.24exp(−26.1/Ti) Lo et al. (2020)
236 N++NHN2++H${{\rm{N}}^ + } + {\rm{NH}} \to {\rm{N}}_2^ + + {\rm{H}}$ 3.70 × 10−10(Ti/300)−0.50 Lo et al. (2020)
237 N+ + NH → NH+ + N 3.70 × 10−10(Ti/300)−0.50 Lo et al. (2020)
238 N++NON2++O${{\rm{N}}^ + } + {\rm{NO}} \to {\rm{N}}_2^ + + {\rm{O}}$ 8.33 × 10−11 Lo et al. (2020)
239 N+ + NO → NO+ + N 4.72 × 10−10 Lo et al. (2020)
240 N+ + O → O+(4S) + N 4.50 × 10−12 Vuitton et al. (2019)
241 N+ + O2 → NO+ + O 4.32 × 10−11(Ti/300)0.45 FS01
242 N+ + O2 → NO+ + O(1D) 1.75 × 10−10(Ti/300)0.45 FS01
243 N++O2O2++N${{{\rm{N}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{N}}}$ 2.02 × 10−10(Ti/300)0.45 FS01
244 N++O2O2++N(2D)${{\rm{N}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{N}}\left( {^2{\rm{D}}} \right)$ 8.65 × 10−11(Ti/300)0.45 FS01
245 N+ + O2 → O+(4S) + NO 4.34 × 10−11(Ti/300)0.45 FS01
246 N+ + OH → NO+ + H 4.375 × 10−10(0.62 + 2.622(300/Ti)0.5) KIDA
247 N+ + OH → OH+ + N 4.375 × 10−10(0.62 + 2.622(300/Ti)0.5) KIDA
248 N2++ArAr++N2${{\rm{N}}_2^ + + {\rm{Ar}} \to {\rm{A}}{{\rm{r}}^ + } + {{\rm{N}}_2}}$ 2.00 × 10−13 Lo et al. (2020)
249 N2++CC++N2${{\rm{N}}_2^ + + {\rm{C}} \to {{\rm{C}}^ + } + {{\rm{N}}_2}}$ 1.10 × 10−10 Lo et al. (2020)
250 N2++CHCH++N2${{\rm{N}}_2^ + + {\rm{CH}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{N}}_2}}$ 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
251 N2++COCO++N2${{\rm{N}}_2^ + + {\rm{CO}} \to {\rm{C}}{{\rm{O}}^ + } + {{\rm{N}}_2}}$ 7.30 × 10−11 Lo et al. (2020)
252 N2++CO2CO2++N2${{\rm{N}}_2^ + + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {{\rm{N}}_2}}$ 8.00 × 10−10 Lo et al. (2020)
253 N2++HH++N2${{\rm{N}}_2^ + + {\rm{H}} \to {{\rm{H}}^ + } + {{\rm{N}}_2}}$ 1.00 × 10−11 Vuitton et al. (2019)
254 N2++H2N2H++H${{\rm{N}}_2^ + + {{\rm{H}}_2} \to {{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{H}}}$ 1.29 × 10−9 Vuitton et al. (2019)
255 N2++H2H2++N2${{\rm{N}}_2^ + + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {{\rm{N}}_2}}$ 1.30 × 10−11 Vuitton et al. (2019)
256 N2++NN++N2${\rm{N}}_2^ + + {\rm{N}} \to {{\rm{N}}^ + } + {{\rm{N}}_2}$ 1 .40 × 10−11 Lo et al. (2020)
257 N2++NHNH++N2${{\rm{N}}_2^ + + {\rm{NH}} \to {\rm{N}}{{\rm{H}}^ + } + {{\rm{N}}_2}}$ 6.52 × 10−10(Ti/300)−0.50 Lo et al. (2020)
258 N2++NONO++N2${{\rm{N}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {{\rm{N}}_2}}$ 4.40 × 10−10 Lo et al. (2020)
259 N2++OO+(4S)+N2${\rm{N}}_2^ + + {\rm{O}} \to {{\rm{O}}^ + }\left( {^4{\rm{S}}} \right) + {{\rm{N}}_2}$ 9.80 × 10−12 Lo et al. (2020)
260 N2++ONO++N${{\rm{N}}_2^ + + {\rm{O}} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{N}}}$ 1.33 × 10−10(Ti/300)−0.44 FS01
261 N2++O2O2++N2${{\rm{N}}_2^ + + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {{\rm{N}}_2}}$ 5.00 × 10−11 Lo et al. (2020)
262 N2++OHOH++N2${\rm{N}}_2^ + + {\rm{OH}} \to {\rm{O}}{{\rm{H}}^ + } + {{\rm{N}}_2}$ 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
263 N2H+ + C → CH+ + N2 1.10 × 10−9 Lo et al. (2020)
264 N2H++CHCH2++N2${{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {{\rm{N}}_2}$ 6.29 × 10−10(Ti/300)−0.50 Lo et al. (2020)
265 N2H+ + CO → HCO+ + N2 8.80 × 10−10 Lo et al. (2020)
266 N2H+ + CO2 → HOCO+ + N2 1.07 × 10−9 Lo et al. (2020)
267 N2H++HN2++H2${{{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{H}} \to {\rm{N}}_2^ + + {{\rm{H}}_2}}$ 2.10 × 10−9exp(−30300/Ti) KIDA
268 N2H++H2H3++N2${{{\rm{N}}_2}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {{\rm{N}}_2}}$ 5.10 × 10−18 Lo et al. (2020)
269 N2H++NHNH2++N2${{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{NH}} \to {\rm{NH}}_2^ + + {{\rm{N}}_2}$ 6.41 × 10−10(Ti/300)−0.50 Lo et al. (2020)
270 N2H+ + NO → HNO+ + N2 3.40 × 10−10 Lo et al. (2020)
271 N2H+ + O → OH+ + N2 1 .40 × 10−10 Lo et al. (2020)
272 N2H+ + OH → H2O+ + N2 6.18 × 10−10(Ti/300)−0.50 Lo et al. (2020)
273 NH+ + C → CH+ + N 1.60 × 10−9 Lo et al. (2020)
274 NH++CHCH2++N${\rm{N}}{{\rm{H}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{N}}$ 9.87 × 10−10(Ti/300)−0.50 Lo et al. (2020)
275 NH+ + CO → HCO+ + N 4.41 × 10−10 Lo et al. (2020)
276 NH+ + CO → NCO+ + H 5.39 × 10−10 Lo et al. (2020)
277 NH+ + CO2 → HOCO+ + N 3.85 × 10−10 Lo et al. (2020)
278 NH+ + CO2 → HNO+ + CO 3.85 × 10−10 Lo et al. (2020)
279 NH+ + CO2 → NO+ + HCO 3.30 × 10−10 Lo et al. (2020)
280 NH+ + H → N+ + H2 6.52 × 10−10 KIDA
281 NH++H2H3++N${{\rm{N}}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{H}}_3^ + + {\rm{N}}}$ 1.85 × 10−10 Lo et al. (2020)
282 NH++H2NH2++H${{\rm{N}}{{\rm{H}}^ + } + {{\rm{H}}_2} \to {\rm{NH}}_2^ + + {\rm{H}}}$ 1.05 × 10−9 Lo et al. (2020)
283 NH++NN2++H${\rm{N}}{{\rm{H}}^ + } + {\rm{N}} \to {\rm{N}}_2^ + + {\rm{H}}$ 1.30 × 10−9 Lo et al. (2020)
284 NH+ + N2 → N2H+ + N 6.50 × 10−10 Lo et al. (2020)
285 NH++NHNH2++N${\rm{N}}{{\rm{H}}^ + } + {\rm{NH}} \to {\rm{NH}}_2^ + + {\rm{N}}$ 9.99 × 10−10(Ti/300)−0.50 Lo et al. (2020)
286 NH+ + NO → N2H+ + O 1.78 × 10−10 Lo et al. (2020)
287 NH+ + NO → NO+ + NH 7.12 × 10−10 Lo et al. (2020)
288 NH+ + O → OH+ + N 1.00 × 10−09 Lo et al. (2020)
289 NH++O2HO2++N${\rm{N}}{{\rm{H}}^ + } + {{\rm{O}}_2} \to {\rm{HO}}_2^ + + {\rm{N}}$ 1.64 × 10−10 Lo et al. (2020)
290 NH+ + O2 → NO+ + OH 2.05 × 10−10 Lo et al. (2020)
291 NH++O2O2++NH${\rm{N}}{{\rm{H}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{NH}}$ 4.51 × 10−10 Lo et al. (2020)
292 NH+ + OH → H2O+ + N 9.99 × 10−10(Ti/300)−0.50 Lo et al. (2020)
293 NH2++CHCH2++NH${\rm{NH}}_2^ + + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{NH}}$ 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
294 NH2++CHCH++NH2${\rm{NH}}_2^ + + {\rm{CH}} \to {\rm{C}}{{\rm{H}}^ + } + {\rm{N}}{{\rm{H}}_2}$ 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
295 NH2++COHCO++NH${\rm{NH}}_2^ + + {\rm{CO}} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{NH}}$ 6.40 × 10−10exp(−6100/Ti) KIDA
296 NH2++HNH++H2${\rm{NH}}_2^ + + {\rm{H}} \to {\rm{N}}{{\rm{H}}^ + } + {{\rm{H}}_2}$ 1.27 × 10−9exp(−24000/Ti) KIDA
297 NH2++H2NH3++H${\rm{NH}}_2^ + + {{\rm{H}}_2} \to {\rm{NH}}_3^ + + {\rm{H}}$ 1.95 × 10−10 Lo et al. (2020)
298 NH2++NN2H++H${\rm{NH}}_2^ + + {\rm{N}} \to {{\rm{N}}_2}{{\rm{H}}^ + } + {\rm{H}}$ 9.10 × 10−11 Lo et al. (2020)
299 NH2++NHNH3++N${\rm{NH}}_2^ + + {\rm{NH}} \to {\rm{NH}}_3^ + + {\rm{N}}$ 7.27 × 10−10(Ti/300)−0.50 Lo et al. (2020)
300 NH2++NONO++NH2${\rm{NH}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{N}}{{\rm{H}}_2}$ 7.00 × 10−10 Lo et al. (2020)
301 NH2++OHNO++H${\rm{NH}}_2^ + + {\rm{O}} \to {\rm{HN}}{{\rm{O}}^ + } + {\rm{H}}$ 7.20 × 10−11 Lo et al. (2020)
302 NH2++O2H2NO++O${\rm{NH}}_2^ + + {{\rm{O}}_2} \to {{\rm{H}}_2}{\rm{N}}{{\rm{O}}^ + } + {\rm{O}}$ 1.19 × 10−10 Lo et al. (2020)
303 NH2++O2HNO++OH${\rm{NH}}_2^ + + {{\rm{O}}_2} \to {\rm{HN}}{{\rm{O}}^ + } + {\rm{OH}}$ 2.10 × 10−11 Lo et al. (2020)
304 NO+ + H2 → H2NO+ + hv 6.70 × 10−20(Ti/300)−1.0 KIDA
305 O+(4S) + C → C+ + O 1.00 × 10−10 FS01
306 O+(4S) + CH → CH+ + O 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
307 O+(4S) + CH → CO+ + H 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
308 O+(4S)+CO2O2++CO${{\rm{O}}^ + }\left( {^4{\rm{S}}} \right) + {\rm{C}}{{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{CO}}$ 1.10 × 10−9 Lo et al. (2020)
309 O+(4S) + H → H+ + O 6.40 × 10−10 Lo et al. (2020)
310 O+(4S) + H2 → OH+ + H 1.62 × 10−9 Lo et al. (2020)
311 O+(4S) + N2 → NO+ + N 1.85 × 10−12(Ti/300)−1.37exp(−28.592/Ti) Lo et al. (2020)
312 O+(4S) + N(2D) → N+ + O 1.30 × 10−10 FS01
313 O+(4S) + NH → NH+ + O 3.60 × 10−10(Ti/300)−0.50 Lo et al. (2020)
314 O+(4S) + NH → NO+ + H 3.60 × 10−10(Ti/300)−0.50 Lo et al. (2020)
315 O+(4S) + NO → NO+ + O 8.00 × 10−13 Lo et al. (2020)
316 O+(4S)+O2O2++O${{{\rm{O}}^ + }\left( {^4{\rm{S}}} \right) + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{O}}}$ 2.10 × 10−11 Lo et al. (2020)
317 O+(4S)+OHO2++H${{{\rm{O}}^ + }\left( {^4{\rm{S}}} \right) + {\rm{OH}} \to {\rm{O}}_2^ + + {\rm{H}}}$ 3.60 × 10−10(Ti/300)−0.50 Lo et al. (2020)
318 O+(4S) + OH → OH+ + O 3.60 × 10−10(Ti/300)−0.50 Lo et al. (2020)
319 O2++CCO++O${{\rm{O}}_2^ + + {\rm{C}} \to {\rm{C}}{{\rm{O}}^ + } + {\rm{O}}}$ 5.20 × 10−11 Lo et al. (2020)
320 O2++CC++O2${{\rm{O}}_2^ + + {\rm{C}} \to {{\rm{C}}^ + } + {{\rm{O}}_2}}$ 5.20 × 10−11 Lo et al. (2020)
321 O2++CHCH++O2${{\rm{O}}_2^ + + {\rm{CH}} \to {\rm{C}}{{\rm{H}}^ + } + {{\rm{O}}_2}}$ 3.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
322 O2++CHHCO++O${{\rm{O}}_2^ + + {\rm{CH}} \to {\rm{HC}}{{\rm{O}}^ + } + {\rm{O}}}$ 3.10 × 10−10(Ti/300)−0.50 Lo et al. (2020)
323 O2++H2O2++H+H${{\rm{O}}_2^ + + {{\rm{H}}_2} \to {\rm{O}}_2^ + + {\rm{H}} + {\rm{H}}}$ 3.00 × 10−11(Ti/300)0.50exp(−52000/Ti) KIDA
324 O2++NNO++O${{\rm{O}}_2^ + + {\rm{N}} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{O}}}$ 1.00 × 10−10 FS01
325 O2++N(2D)NO++O${{\rm{O}}_2^ + + {\rm{N}}\left( {^2{\rm{D}}} \right) \to {\rm{N}}{{\rm{O}}^ + } + {\rm{O}}}$ 1.80 × 10−10 FS01
326 O2++N(2D)N++O2${{\rm{O}}_2^ + + {\rm{N}}\left( {^2{\rm{D}}} \right) \to {{\rm{N}}^ + } + {{\rm{O}}_2}}$ 8.65 × 10−11 FS01
327 O2++N2NO++NO${{\rm{O}}_2^ + + {{\rm{N}}_2} \to {\rm{N}}{{\rm{O}}^ + } + {\rm{NO}}}$ 1.00 × 10−15 FS01
328 O2++NHHNO++O${{\rm{O}}_2^ + + {\rm{NH}} \to {\rm{HN}}{{\rm{O}}^ + } + {\rm{O}}}$ 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
329 O2++NHNO2++H${{\rm{O}}_2^ + + {\rm{NH}} \to {\rm{NO}}_2^ + + {\rm{H}}}$ 3.20 × 10−10(Ti/300)−0.50 Lo et al. (2020)
330 O2++NONO++O2${{\rm{O}}_2^ + + {\rm{NO}} \to {\rm{N}}{{\rm{O}}^ + } + {{\rm{O}}_2}}$ 4.60 × 10−10 Lo et al. (2020)
331 OH+ + C → CH+ + O 1.20 × 10−09 Lo et al. (2020)
332 OH++CHCH2++O${\rm{O}}{{\rm{H}}^ + } + {\rm{CH}} \to {\rm{CH}}_2^ + + {\rm{O}}$ 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
333 OH+ + CH → CH+ + OH 3.50 × 10−10(Ti/300)−0.50 Lo et al. (2020)
334 OH+ + CO → HCO+ + O 8.40 × 10−10 Lo et al. (2020)
335 OH+ + CO2 → HOCO+ + O 1.35 × 10−09 Lo et al. (2020)
336 OH+ + H2 → H2O+ + H 9.70 × 10−10 Lo et al. (2020)
337 OH+ + N → NO+ + H 8.90 × 10−10 Lo et al. (2020)
338 OH+ + N2 → N2H+ + O 2.40 × 10−10 Lo et al. (2020)
339 OH++NHNH2++O${\rm{O}}{{\rm{H}}^ + } + {\rm{NH}} \to {\rm{NH}}_2^ + + {\rm{O}}$ 3.60 × 10−10(Ti/300)−0.50 Lo et al. (2020)
340 OH+ + NO → HNO+ + O 6.11 × 10−10 Lo et al. (2020)
341 OH+ + NO → NO+ + OH 8.15 × 10−10 Lo et al. (2020)
342 OH++OO2++H${{\rm{O}}{{\rm{H}}^ + } + {\rm{O}} \to {\rm{O}}_2^ + + {\rm{H}}}$ 7.10 × 10−10 Lo et al. (2020)
343 OH++O2O2++OH${{\rm{O}}{{\rm{H}}^ + } + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{OH}}}$ 3.80 × 10−10 Lo et al. (2020)
344 OH+ + OH → H2O+ + O 6.99 × 10−10(Ti/300)−0.50 Lo et al. (2020)
345 O+(2D) + CO → CO+ + O 1.30 × 10−9 FS01
346 O+(2D)+CO2O2++CO${{{\rm{O}}^ + }\left( {^2{\rm{D}}} \right) + {\rm{C}}{{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{CO}}}$ 6.00 × 10−11 FS01
347 O+(2D)+CO2CO2++O${{{\rm{O}}^ + }\left( {^2{\rm{D}}} \right) + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{O}}}$ 1.00 × 10−9 FS01
348 O+(2D) + H2 → OH+ + H 1.50 × 10−9 FS01
349 O+(2D)+H2H2++O${{\rm{O}}^ + }\left( {^2{\rm{D}}} \right) + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{O}}$ 4.50 × 10−11 FS01
350 O+(2D) + H2 → H+ + OH 1.50 × 10−11 FS01
351 O+(2D) + N → N+ + O 1.50 × 10−10 FS01
352 O+(2D)+N2N2++O${{\rm{O}}^ + }\left( {^2{\rm{D}}} \right) + {{\rm{N}}_2} \to {\rm{N}}_2^ + + {\rm{O}}$ 5.70 × 10−10exp(−400/Ti) FS01
353 O+(2D) + NO → NO+ + O 1.20 × 10−9 FS01
354 O+(2D)+O2O2++O${{\rm{O}}^ + }\left( {^2{\rm{D}}} \right) + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{O}}$ 7.00 × 10−10 FS01
355 O+(2P) + CO → CO+ + O 1.30 × 10−9 FS01
356 O+(2P)+CO2O2++CO${{\rm{O}}^ + }\left( {^2{\rm{P}}} \right) + {\rm{C}}{{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{CO}}$ 6.00 × 10−11 FS01
357 O+(2P)+CO2CO2++O${{\rm{O}}^ + }\left( {^2{\rm{P}}} \right) + {\rm{C}}{{\rm{O}}_2} \to {\rm{CO}}_2^ + + {\rm{O}}$ 1.00 × 10−9 FS01
358 O+(2P) + H2 → OH+ + H 8.50 × 10−10 FS01
359 O+(2P)+H2H2++O${{\rm{O}}^ + }\left( {^2{\rm{P}}} \right) + {{\rm{H}}_2} \to {\rm{H}}_2^ + + {\rm{O}}$ 3.33 × 10−10 FS01
360 O+(2P) + H2 → H+ + OH 6.93 × 10−11 FS01
361 O+(2P) + H2 → H+ + O + H 6.93 × 10−11 FS01
362 O+(2P) + NO → NO+ + O 1.20 × 10−9 FS01
363 O+(2P)+O2O2++O${{\rm{O}}^ + }\left( {^2{\rm{P}}} \right) + {{\rm{O}}_2} \to {\rm{O}}_2^ + + {\rm{O}}$ 1.30 × 10−10 FS01

* Various ion-neutral reactions included in our model, along with the rate constants in Gaussian units (Ti in units of K) and the respective source references.

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