Aniline (data page)

This page provides supplementary chemical data on aniline.

Material Safety Data Sheet

The handling of this chemical may incur notable safety precautions. It is highly recommend that you seek the Material Safety Datasheet (MSDS) for this chemical from a reliable source and follow its directions.

Structure and properties

Structure and properties
Index of refraction, nD 1.5863 at 20 °C
Abbe number ?
Dielectric constant,[1] εr 6.89 ε0 at 20 °C
Bond strength ?
Bond length ?
Bond angle ?
Magnetic susceptibility ?
Surface tension[2] 44.0 dyn/cm at 10 °C
42.9 dyn/cm at 20 °C
24.4 dyn/cm at 180 °C
Viscosity[3] 6.023 mPa·s at 12 °C
4.467 mPa·s at 20 °C
2.92 mPa·s   at 22 °C
1.555 mPa·s at 60 °C

Thermodynamic properties

Phase behavior
Triple point 267.13 K (–6.02 °C), ? Pa
Critical point 698.8 K (425.7 °C), 4890 kPa
Std enthalpy change
of fusion
, ΔfusHo
10.54 kJ/mol
Std entropy change
of fusion
, ΔfusSo
39.57 J/(mol·K) at –6.3 °C
Std enthalpy change
of vaporization
, ΔvapHo
55.83 kJ/mol at 25 °C
42.44 kJ/mol at 184.1 °C
Std entropy change
of vaporization
, ΔvapSo
? J/(mol·K)
Solid properties
Std enthalpy change
of formation
, ΔfHosolid
? kJ/mol
Standard molar entropy,
Sosolid
? J/(mol K)
Heat capacity, cp ? J/(mol K)
Liquid properties
Std enthalpy change
of formation
, ΔfHoliquid
31 kJ/mol
Standard molar entropy,
Soliquid
191. J/(mol K)
Enthalpy of combustion, ΔcHoliquid –3393 kJ/mol
Heat capacity, cp 193.7 J/(mol K) at 25 °C
Gas properties
Std enthalpy change
of formation
, ΔfHogas
87 kJ/mol
Standard molar entropy,
Sogas
? J/(mol K)
Heat capacity,[4] cp 148.7 J/(mol K) at 25 °C
van der Waals' constants[5] a = 2685 L2 kPa/mol2
b = 0.1369 liter per mole

Vapor pressure of liquid

P in mm Hg 1 10 40 100 400 760 1520 3800 7600 15200 30400 45600
T in °C 34.8 69.4 96.7 119.9 161.9 184.4 212.8 254.8 292.7 342.0 400.0  

Table data obtained from CRC Handbook of Chemistry and Physics 44th ed.

log10 of Aniline vapor pressure. Uses formula: \scriptstyle \log_e P_{mmHg} =\scriptstyle \log_e (\frac {760} {101.325}) - 22.11315\log_e(T+273.15) - \frac {13079.73} {T+273.15} + 166.0812 + 1.233275 \times 10^{-5} (T+273.15)^2 obtained from CHERIC[4]

Distillation data

See also:

Vapor-liquid Equilibrium
for Aniline/Water
[6]
P = 745 mm Hg
BP
Temp.
°C
% by mole water
liquid vapor
98.5 96.5
101 24.7 94.8
105 20.0 94.3
109.8 15.3 92.4
115.8 11.7 89.3
121 9.3 86.2
126 7.6 81.6
131 5.9 75.9
140 4.25 70.8
152 2.50 60.5
160 1.70 48.7
168 1.05 34.1
   
Vapor-liquid Equilibrium
for Aniline/n-hexane
[6]
P = 101.325 kPa
BP
Temp.
°C
% by mole hexane
liquid vapor
150.2 1.50 62.50
136.4 2.50 76.00
116.0 5.30 88.70
90.0 11.00 96.00
79.5 16.85 97.66
75.7 20.99 98.07
74.1 27.35 98.31
73.25 37.90 98.42
73.20 52.00 98.62
73.15 71.46 98.78
72.15 81.26 98.93
71.50 86.50 99.06
70.70 90.93 99.16
69.80 95.32 99.36
69.10 97.86 99.61

Spectral data

UV-Vis
Ionization potential 7.72(62281)   eV(cm−1)
λmax 230 nm (E2-band)[7]
280 nm (B-band)[7]
Extinction coefficient, ε 8 600 (E2-band)[7]
1 430 (B-band)[7]
IR
Major absorption bands[8]
(liquid film)
Wave number transmittance
3663 cm1 77%
3429 cm1 32%
3354 cm1 20%
3214 cm1 44%
3088 cm1 62%
3072 cm1 55%
3037 cm1 38%
3010 cm1 67%
2930 cm1 81%
2904 cm1 79%
2640 cm1 79%
2627 cm1 81%
1929 cm1 77%
1839 cm1 79%
1705 cm1 77%
1621 cm1 7%
1601 cm1 5%
1557 cm1 70%
1525 cm1 66%
1496 cm1 4%
1467 cm1 34%
1332 cm1 74%
1312 cm1 57%
1277 cm1 25%
1176 cm1 32%
1154 cm1 68%
1053 cm1 77%
1028 cm1 64%
996 cm1 60%
881 cm1 53%
754 cm1 8%
693 cm1 10%
620 cm1 47%
529 cm1 50%
504 cm1 18%
NMR
Proton NMR  
Carbon-13 NMR  
Other NMR data  
MS
Masses of
main fragments
 

UV Absorbance Spectroscopy of Aniline

Aniline is a benzenoid compound. The NH2 group attached to the benzene ring means that there is a lone pair of electrons that can enter into conjugation with the benzene ring resulting in delocalization in the aniline.

Aniline absorbs in the K (220 - 250 nm) and the B (250 - 290 nm) bands exhibited by benzenoid compounds. The K and B bands arise from π to π* transitions as a result of the a group containing multiple bond being attached to the benzene ring. When dissolved in ethanol, λmax for aniline is 230 nm, but in dilute aqueous acid λmax is 203 nm. In the latter case the anilinium cation is formed and the lone pair is no longer available for conjugation with the benzene ring. Consequently, the absorption of the molecule shifts to the lower λmax value and behaves like benzene.

Regulatory data

Regulatory data
Flash point 70 °C
RTECS ?
Autoignition temperature 615 °C

References

  1. Lange's Handbook of Chemistry, 10th ed. pp 1234-1237
  2. Lange's Handbook of Chemistry, 10th ed. pp 1661-1663
  3. Lange's Handbook of Chemistry, 10th ed. pp 1669-1674
  4. 1 2 "Pure Component Properties" (Queriable database). Chemical Engineering Research Information Center. Archived from the original on 3 June 2007. Retrieved 28 May 2007.
  5. Lange's Handbook of Chemistry, 10th ed, pp 1522-1524
  6. 1 2 "Binary Vapor-Liquid Equilibrium Data" (Queriable database). Chemical Engineering Research Information Center. Retrieved 6 June 2007.
  7. 1 2 3 4 Kaur, H. Spectroscopy. Global Media: Meerut, India, 2009; p. 304
  8. "Spectral Database for Organic Compounds" (Queriable database). Advanced Industrial Science and Technology. Retrieved 9 June 2007.

Except where noted otherwise, data relate to standard ambient temperature and pressure.

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