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C 5 H 12 + 8 O 2 → 5 CO 2 + 6 H 2 O + heat/energy. Like other alkanes, pentanes undergo free radical chlorination: C 5 H 12 + Cl 2 → C 5 H 11 Cl + HCl. Without zeolite catalysts, such reactions are unselective, so with n-pentane, the result is a mixture of the 1-, 2-, and 3-chloropentanes, as well as more highly chlorinated derivatives.
2 C 5 H 6 + TiCl 4 → (C 5 H 5) 2 TiCl 2 + 2 HCl. Focusing on the geometry of the Ti center, Cp 2 TiCl 2 adopts a distorted tetrahedral geometry (counting Cp as a monodentate ligand). The Ti-Cl distance is 2.37 Å and the Cl-Ti-Cl angle is 95°. [7]
C 5 H 12 ClO 2 PS 2: chlormephos: 24934-91-6 C 5 H 12 Cl 2 Si: isobutylmethyldichlorosilane: 18147-18-7 C 5 H 12 FO 2 P: butyl methylphosphonofluoridate: 352-63-6 C 5 H 12 FO 2 P: isopropyl ethylphosphonofluoridate: 1189-87-3 C 5 H 12 FO 2 P: propyl ethylphosphonofluoridate: 2992-95-2 C 5 H 12 NO 3 PS 2: dimethoate: 60-51-5 C 5 H 12 NO 4 PS ...
[12] [13] Cyclopentane requires safety precautions to prevent leakage and ignition as it is both highly flammable and can also cause respiratory arrest when inhaled. [14] Cyclopentane can be fluorinated to give compounds ranging from C 5 H 9 F to perfluorocyclopentane C 5 F 10. Such species are conceivable refrigerants and specialty solvents ...
Tc-Cl = 2.35 Å for As(C 6 H 5) 4 + salt [38] [Tc 2 Cl 8] 2−: green (t 2g) 4: Tc-Tc quadruple bond Tc-Tc = 2.16, Tc-Cl = 2.34 Å for NBu 4 + salt [39] [RuCl 6] 2−: brown (t 2g) 4: octahedral (EtPPh 3 +) 2 salt [40] [Ru 2 Cl 9] 3−: red [(t 2g) 5] 2: cofacial bioctahedral Ru-Ru bond length = 2.71 Å; Ru-Cl(terminal) = 2.35 Å, Ru-Cl ...
C 5 H 9 NO 2: proline Pro: 147-85-3 C 5 H 9 NO 4: glutamic acid Glu: 56-86-0 C 5 H 10: cyclopentane: 287-92-3 C 5 H 10 N 2 O 3: glutamine Gln: 56-85-9 C 5 H 10 O 2: pivalic acid: C 5 H 10 O 2: valeric acid: C 5 H 10 O 2: 3-Methylbutanoic acid: C 5 H 10 O 4: deoxyribose: 533-67-5 C 5 H 11 NO 2: valine Val: 660-88-8 C 5 H 11 NO 2 S: methionine ...
NaCl + H 2 SO 4 → NaHSO 4 + HCl↑. This reaction occurs at room temperature. Provided there is NaCl remaining in the generator and it is heated above 200 °C, the reaction proceeds further: NaCl + NaHSO 4 → Na 2 SO 4 + HCl↑. For such generators to function, the reagents should be dry.
Cp 2 Ti(CO) 2 is prepared by the reduction of titanocene dichloride with magnesium as a slurry in THT under an atmosphere of carbon monoxide. [2] (C 5 H 5) 2 TiCl 2 + Mg + 2 CO → (C 5 H 5) 2 Ti(CO) 2 + MgCl 2. Both Cp 2 Ti(CO) 2 and Cp 2 TiCl 2 are tetrahedral as are related zirconium and hafnium compounds.