beryllium oxide

Formula: BeO
Molecular weight: 25.0116
IUPAC Standard InChI: InChI=1S/Be.O
IUPAC Standard InChIKey: LTPBRCUWZOMYOC-UHFFFAOYSA-N
CAS Registry Number: 1304-56-9
Chemical structure:
This structure is also available as a 2d Mol file or as a computed 3d SD file
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Other names: Beryllium monoxide
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Gas phase thermochemistry data

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Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_gas	32.600	kcal/mol	Review	Chase, 1998	Data last reviewed in June, 1975
Quantity	Value	Units	Method	Reference	Comment
S°_{gas,1 bar}	47.235	cal/mol*K	Review	Chase, 1998	Data last reviewed in June, 1975

Gas Phase Heat Capacity (Shomate Equation)

C_p° = A + B*t + C*t² + D*t³ + E/t²
H° − H°_298.15= A*t + B*t²/2 + C*t³/3 + D*t⁴/4 − E/t + F − H
S° = A*ln(t) + B*t + C*t²/2 + D*t³/3 − E/(2*t²) + G
C_p = heat capacity (cal/mol*K)
H° = standard enthalpy (kcal/mol)
S° = standard entropy (cal/mol*K)
t = temperature (K) / 1000.

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Temperature (K)	5000. - 6000.
A	66.04852
B	-18.97775
C	2.381599
D	-0.105017
E	-123.2464
F	-112.8399
G	35.83556
H	32.59990
Reference	Chase, 1998
Comment	Data last reviewed in June, 1975

Condensed phase thermochemistry data

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Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_liquid	-129.71	kcal/mol	Review	Chase, 1998	Data last reviewed in June, 1975
Quantity	Value	Units	Method	Reference	Comment
S°_{liquid,1 bar}	8.571	cal/mol*K	Review	Chase, 1998	Data last reviewed in June, 1975
Quantity	Value	Units	Method	Reference	Comment
Δ_fH°_solid	-145.7 ± 0.60	kcal/mol	Review	Cox, Wagman, et al., 1984	CODATA Review value
Δ_fH°_solid	-145.40	kcal/mol	Review	Chase, 1998	α phase; Data last reviewed in June, 1975
Quantity	Value	Units	Method	Reference	Comment
S°_{solid,1 bar}	3.291 ± 0.01	cal/mol*K	Review	Cox, Wagman, et al., 1984	CODATA Review value

Liquid Phase Heat Capacity (Shomate Equation)

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Temperature (K)	2780. - 5000.
A	19.00000
B	1.686860×10^-8
C	-3.866521×10^-9
D	3.049080×10^-10
E	2.377920×10^-8
F	-147.4560
G	15.86600
H	-129.7100
Reference	Chase, 1998
Comment	Data last reviewed in June, 1975

Solid Phase Heat Capacity (Shomate Equation)

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Temperature (K)	298. - 800.	800. - 2780.	298. - 1500.	1500. - 2780.
A	0.802814	11.24810	5.901000	11.55660
B	31.45129	1.338040	12.56290	1.049961
C	-33.57880	-0.118444	-8.688430	-0.021545
D	13.43440	0.013032	2.267670	0.001870
E	-0.128267	-0.704439	-0.251887	-0.829136
F	-147.1980	-150.9750	-146.8940	-149.6920
G	-4.464350	13.08910	6.300151	13.94610
H	-145.4000	-145.4000	-143.8000	-143.8000
Reference	Chase, 1998	Chase, 1998	Chase, 1998	Chase, 1998
Comment	α phase; Data last reviewed in June, 1975	α phase; Data last reviewed in June, 1975	β phase; Data last reviewed in June, 1975	β phase; Data last reviewed in June, 1975

IR Spectrum

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Data compiled by: Coblentz Society, Inc.

Spectrum

A digitized version of this spectrum is not currently available.

Additional Data

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Owner	COBLENTZ SOCIETY Collection (C) 2018 copyright by the U.S. Secretary of Commerce on behalf of the United States of America. All rights reserved.
Source reference	COBLENTZ NO. 1430
Date	Not specified, most likely prior to 1970
Instrument	Not specified, most likely a prism, grating, or hybrid spectrometer.
Data processing	(NO SPECTRUM, ONLY SCANNED IMAGE IS AVAILABLE)

This IR spectrum is from the Coblentz Society's evaluated infrared reference spectra collection.

Constants of diatomic molecules

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Data compiled by: Klaus P. Huber and Gerhard H. Herzberg

Data collected through April, 1976

Symbols used in the table of constants
Symbol	Meaning
State	electronic state and / or symmetry symbol
T_e	minimum electronic energy (cm^-1)
ω_e	vibrational constant – first term (cm^-1)
ω_ex_e	vibrational constant – second term (cm^-1)
ω_ey_e	vibrational constant – third term (cm^-1)
B_e	rotational constant in equilibrium position (cm^-1)
α_e	rotational constant – first term (cm^-1)
γ_e	rotation-vibration interaction constant (cm^-1)
D_e	centrifugal distortion constant (cm^-1)
β_e	rotational constant – first term, centrifugal force (cm^-1)
r_e	internuclear distance (Å)
Trans.	observed transition(s) corresponding to electronic state
ν₀₀	position of 0-0 band (units noted in table)

Diatomic constants for ⁹Be¹⁶O
State	T_e	ω_e	ω_ex_e	ω_ey_e	B_e	α_e	γ_e	D_e	β_e	r_e	Trans.	ν₀₀
Fragments of additional singlet and triplet systems in the region 29000 - 33000 cm^-1.
↳Bengtsson, 1928; Ciccone, 1934; missing citation
c (¹ Σ)	39120.2	1081.5 (H^Q)	9.1		(1.308)	(0.010)				(1.495)	C → A 1 R	29683.1 (H^Q)
c (¹ Σ)	↳Harvey and Bell, 1935; missing citation
B ¹ Σ⁺	21253.94	1370.82 Z	7.746	-0.00027	1.5758 2 3	0.0154		8.41E-6 4		1.3623	B → A 5 V	11961.78 Z
	↳Lagerqvist, 1948
											B ↔ X 6 7 R	21196.70 Z
	↳missing citation; Rosenthal and Jenkins, 1929; Lagerqvist and Westoo, 1946; Lagerqvist, 1948; missing citation
State	T_e	ω_e	ω_ex_e	ω_ey_e	B_e	α_e	γ_e	D_e	β_e	r_e	Trans.	ν₀₀
b ³Σ⁺	8
b ³Σ⁺	↳Thrush, 1960
A ¹Π	9405.61	1144.24 Z	8.415	0.0339	1.3661 9 2 3	0.01628	0.000055	7.79E-6		1.4631	A → X R	9234.92 Z
A ¹Π	↳Herzberg, 1933; missing citation; Lagerqvist, 1947; missing citation
a ³Π	(8480) 10
X ¹Σ⁺	0	1487.32 Z	11.83	0.0224	1.6510 3	0.0190		8.20E-6 11		1.3309 12

Notes

Franck-Condon factors Liszt and Smith, 1971.

Numerous perturbations between levels of A ¹Π and B ¹Σ, A ¹Π and X ¹Σ, as well as perturbations by unidentified levels [probably belonging to a ³Π and b ³Σ, see Huo, Freed, et al., 1967]. For an extensive treatment see Lagerqvist and Westoo, 1945, Lagerqvist and Westoo, 1946, Lagerqvist, 1946, Lagerqvist, 1948.

RKRV potential curves Thakur and Singh, 1967.

β_e= -0.07E-6. H_v= +[27 - 2(v+1/2)]E-12.

Very weak system.

Radiative lifetime τ(v=0)=90 ns Capelle, Johnson, et al., 1972; f₀₀=0.0335. A much smaller value, f₀₀(B-X) = 0.00194 Drake, Tyte, et al., 1967, was estimated from shock tube measurements Drake, Tyte, et al., 1967.

Franck-Condon factors Nicholls, Fraser, et al., 1960, Liszt and Smith, 1971; approximate electronic transition moments, band oscillator strengths Drake, Tyte, et al., 1967.

The theoretical calculations of Verhaegen and Richards, 1966 place the 3 Σ⁺ state at 4100 cm^-1 below B ¹Σ+, in rough agreement with O'Neil, Pearson, et al., 1971 who calculate its energy at 15400 cm^-1 above X ¹Σ.

Λ-type doubling, Δv_fe= +0.00055 J(J+1).

Theoretical calculations Huo, Freed, et al., 1967, Verhaegen and Richards, 1966 place the ³Π state at 920 to 2600 cm^-1 below A ¹Π, in reasonable agreement with Pearson, O'Neil, et al., 1972 who predict it at 5900 cm^-1 above X ¹Σ⁺.

β_e~-0.01; H_v= +[12.5 - 1.1(v+1/2)]E-12.

For computed ground state properties see Yoshimine, 1964 Schaefer, 1971.

Thermochemical value (mass-spectrom.) Chupka, Berkowitz, et al., 1959; in good agreement with 4.52 eV derived from an ab initio calculation Schaefer, 1971 of X ¹Σ⁺. Extrapolations of X and A to their common limit Be(¹S) + O(¹D) lead to 3.9 and 4.8₂ eV, respectively Lagerqvist, 1954. A considerably higher thermochemical value of 5.5₁ eV was determined by Drummond and Barrow, 1953.

β_e= -0.044E-6

References

Go To: Top, Gas phase thermochemistry data, Condensed phase thermochemistry data, IR Spectrum, Constants of diatomic molecules, Notes

Chase, 1998
Chase, M.W., Jr., NIST-JANAF Themochemical Tables, Fourth Edition, J. Phys. Chem. Ref. Data, Monograph 9, 1998, 1-1951. [all data]

Cox, Wagman, et al., 1984
Cox, J.D.; Wagman, D.D.; Medvedev, V.A., CODATA Key Values for Thermodynamics, Hemisphere Publishing Corp., New York, 1984, 1. [all data]

Bengtsson, 1928
Bengtsson, E., Uber das bandenspektrum des berylliumoxyds, Ark. Mat. Astron. Fys., 1928, 28, 1. [all data]

Ciccone, 1934
Ciccone, A., Bande ultraviolette dell'ossido di Berillio, Ric. Sci. Progr. Tec., 1934, 1, 2, 123. [all data]

Harvey and Bell, 1935
Harvey, A.; Bell, H., The band spectrum of beryllium monoxide, Proc. Phys. Soc. London, 1935, 47, 415. [all data]

Lagerqvist, 1948
Lagerqvist, Dissertation, Stockholm, 1948, 0. [all data]

Rosenthal and Jenkins, 1929
Rosenthal, J.E.; Jenkins, F.A., Quantum analysis of the beryllium oxide bands, Phys. Rev., 1929, 33, 163. [all data]

Lagerqvist and Westoo, 1946
Lagerqvist, A.; Westoo, R., Perturbations in the ¹Σ-¹Σ system of the band-spectrum of beryllium oxide, Ark. Mat. Astron. Fys., 1946, 32, 1. [all data]

Thrush, 1960
Thrush, B.A., The ground state of beryllium oxide, Proc. Chem. Soc. London, 1960, 339. [all data]

Herzberg, 1933
Herzberg, L., Uber ein neues bandensystem des berylliumoxyds und die struktur des BeO-molekuls, Z. Phys., 1933, 84, 571. [all data]

Lagerqvist, 1947
Lagerqvist, A., The band-spectrum of beryllium oxide between λ 10000 Å and λ 11600 Å, Ark. Mat. Astron. Fys., 1947, 34, 1. [all data]

Liszt and Smith, 1971
Liszt, H.S.; Smith, Wm.H., RKR Franck-Condon factors for blue and ultraviolet transitions of some metal oxides, J. Quant. Spectrosc. Radiat. Transfer, 1971, 11, 1043. [all data]

Huo, Freed, et al., 1967
Huo, W.M.; Freed, K.F.; Klemperer, W., Valence excited states of BeO, J. Chem. Phys., 1967, 46, 3556. [all data]

Lagerqvist and Westoo, 1945
Lagerqvist, A.; Westoo, R., Perturbed bands of beryllium oxide between λ 8000 Å and λ 10000 Å, Ark. Mat. Astron. Fys., 1945, 31, 1. [all data]

Lagerqvist, 1946
Lagerqvist, A., Rotational perturbations in the band-spectrum of beryllium oxide, Ark. Mat. Astron. Fys., 1946, 33, 1. [all data]

Thakur and Singh, 1967
Thakur, S.N.; Singh, R.B., Potential curves and bond strength of CP, BeO and MgO, J. Sci. Res. Banaras Hindu Univ., 1967, 18, 1, 253-264. [all data]

Capelle, Johnson, et al., 1972
Capelle, G.A.; Johnson, S.E.; Broida, H.P., Radiative lifetimes of BeO, J. Chem. Phys., 1972, 56, 6264. [all data]

Drake, Tyte, et al., 1967
Drake, G.W.F.; Tyte, D.C.; Nicholls, R.W., A study of emissivities and transition probabilities of diatomic molecules in optically thick hot gases with applications to the B¹Σ-X¹Σ transition of BeO, J. Quant. Spectrosc. Radiat. Transfer, 1967, 7, 639. [all data]

Nicholls, Fraser, et al., 1960
Nicholls, R.W.; Fraser, P.A.; Jarmain, W.R.; McEachran, R.P., Vibrational transition probabilities of diatomic molecules: collected results. IV. BeO, BO, CH⁺, CO, NO, SH, O₂, O₂⁺, Astrophys. J., 1960, 131, 399. [all data]

Verhaegen and Richards, 1966
Verhaegen, G.; Richards, W.G., Valence levels of beryllium oxide, J. Chem. Phys., 1966, 45, 1828. [all data]

O'Neil, Pearson, et al., 1971
O'Neil, S.V.; Pearson, P.K.; Schaefer, H.F., III, Repulsive ³Σ^- and low-lying (≥1.9 eV) ³Σ⁺ states of BeO, Chem. Phys. Lett., 1971, 10, 404. [all data]

Pearson, O'Neil, et al., 1972
Pearson, P.K.; O'Neil, S.V.; Schaefer, H.F., III, Role of electron correlation in a priori predictions of the electronic ground state of BeO, J. Chem. Phys., 1972, 56, 3938. [all data]

Yoshimine, 1964
Yoshimine, M., Computed potential curve and spectroscopic constants for beryllium oxide ground state in molecular orbital approximation, J. Chem. Phys., 1964, 40, 2970. [all data]

Schaefer, 1971
Schaefer, H.F., III, Electron correlation in the lowest ¹Σ⁺ state of beryllium oxide, J. Chem. Phys., 1971, 55, 176. [all data]

Chupka, Berkowitz, et al., 1959
Chupka, W.A.; Berkowitz, J.; Giese, C.F., Vaporization of beryllium oxide and its reaction with tungsten, J. Chem. Phys., 1959, 30, 827-834. [all data]

Lagerqvist, 1954
Lagerqvist, A., The energy of dissociation of BeO, Ark. Fys., 1954, 7, 473. [all data]

Drummond and Barrow, 1953
Drummond, G.; Barrow, R.F., Thermochemical properties of gaseous beryllium and magnesium oxides, Trans. Faraday Soc., 1953, 49, 599. [all data]

Notes

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Symbols used in this document:

S°_{gas,1 bar}	Entropy of gas at standard conditions (1 bar)
S°_{liquid,1 bar}	Entropy of liquid at standard conditions (1 bar)
S°_{solid,1 bar}	Entropy of solid at standard conditions (1 bar)
Δ_fH°_gas	Enthalpy of formation of gas at standard conditions
Δ_fH°_liquid	Enthalpy of formation of liquid at standard conditions
Δ_fH°_solid	Enthalpy of formation of solid at standard conditions

Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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