Home / Publications / Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η⁵-C₅H₅)V(CO)₃L] Compounds (L = N₂ and η²-H₂)

Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η⁵-C₅H₅)V(CO)₃L] Compounds (L = N₂ and η²-H₂)

Frank P.A. Johnson ¹

Frank P.A. Johnson

Vladimir Karpovich Popov ²

Vladimir Karpovich Popov

Michael W George ¹

Michael W George

Victor Nikolaevich Bagratashvili ²

Victor Nikolaevich Bagratashvili

Martyn Poliakoff ³

Martyn Poliakoff

James J Turner ¹

James J Turner

¹ University of Nottingham, UK

² Institute of Laser and Information Technologies, Russian Academy of Sciences, Troitsk, Moscow Region, Russian Federation

³ Department of Chemistry, University of Nottingham, Nottingham, UK

10.1070/MC1991v001n04ABEH000089

Copy DOI

Published 1991-12-31

Communication , Volume 1, Issue 4, 145-148

View PDF

Cite this

GOST

Cite this

GOST Copy

Johnson F. P. et al. Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η5-C5H5)V(CO)3L] Compounds (L = N2 and η2-H2) // Mendeleev Communications. 1991. Vol. 1. No. 4. pp. 145-148.

GOST all authors (up to 50) Copy

Johnson F. P., Popov V. K., George M. W., Bagratashvili V. N., Poliakoff M., Turner J. J. Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η5-C5H5)V(CO)3L] Compounds (L = N2 and η2-H2) // Mendeleev Communications. 1991. Vol. 1. No. 4. pp. 145-148.

RIS

Cite this

RIS Copy

TY - JOUR

DO - 10.1070/MC1991v001n04ABEH000089

UR - https://mendcomm.colab.ws/publications/10.1070/MC1991v001n04ABEH000089

TI - Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η5-C5H5)V(CO)3L] Compounds (L = N2 and η2-H2)

T2 - Mendeleev Communications

AU - Johnson, Frank P.A.

AU - Popov, Vladimir Karpovich

AU - George, Michael W

AU - Bagratashvili, Victor Nikolaevich

AU - Poliakoff, Martyn

AU - Turner, James J

PY - 1991

DA - 1991/12/31

PB - Mendeleev Communications

SP - 145-148

IS - 4

VL - 1

ER -

BibTex

Cite this

BibTex (up to 50 authors) Copy

@article{1991_Johnson,

author = {Frank P.A. Johnson and Vladimir Karpovich Popov and Michael W George and Victor Nikolaevich Bagratashvili and Martyn Poliakoff and James J Turner},

title = {Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η5-C5H5)V(CO)3L] Compounds (L = N2 and η2-H2)},

journal = {Mendeleev Communications},

year = {1991},

volume = {1},

publisher = {Mendeleev Communications},

month = {Dec},

url = {https://mendcomm.colab.ws/publications/10.1070/MC1991v001n04ABEH000089},

number = {4},

pages = {145--148},

doi = {10.1070/MC1991v001n04ABEH000089}

}

MLA

Cite this

MLA Copy

Johnson, Frank P.A., et al. “Photoacoustic Calorimetric and Time-Resolved Infrared Studies on Unstable Dinitrogen and Dihydrogen Complexes in Hydrocarbon Solution; Estimation of V–L Bond Dissociation Enthalpies in [(η5-C5H5)V(CO)3L] Compounds (L = N2 and η2-H2).” Mendeleev Communications, vol. 1, no. 4, Dec. 1991, pp. 145-148. https://mendcomm.colab.ws/publications/10.1070/MC1991v001n04ABEH000089.

Abstract

Photoacoustic calorimetry (PAC) is used to measure energy changes associated with the photochemical reaction of [cpV(C0)₄] (cp = η⁵-C₅H₅) with H₂ and N₂ in n-heptane solution; fast time-resolved IR spectroscopy (TRIR) is used to establish the timescale of these reactions and to verify the quantum yields so that enthalpy changes can be calculated from the PAC signals and hence bond dissociation energies can be estimated

References

10.1070/MC1991v001n04ABEH000089_bib1

1990

10.1021/ar00147a005

Molecular hydrogen complexes: coordination of a .sigma. bond to transition metals

Kubas G.J.

Accounts of Chemical Research, 1988

10.1016/S0065-3055(08)60116-1

H-H, C-H, and Related Sigma-Bonded Groups as Ligands

Crabtree R.H., Hamilton D.G.

Advances in Organometallic Chemistry, 1988

10.1070/MC1991v001n04ABEH000089_bib2_3

Ginsburg

Metalloorg. Khim., 1989

A. A. Gonzalez, Z. Kai, S. L. Mukerjee, C. D. Hoff, G. R. K. Khalsa and G. Kubas, ref. 1, p. 139.

10.1021/om00102a001

Thermodynamic and kinetic studies of the complexes W(CO)3(PCy3)2L (L = H2, N2, NCCH3, pyridine, P(OMe)3, CO)

Gonzalez A.A., Zhang K., Nolan S.P., Lopez de la Vega R., Mukerjee S.L., Hoff C.D., Kubas G.J.

Organometallics, 1988

10.1021/ic00322a023

Entropy of binding molecular hydrogen and nitrogen in the complexes tricarbonylbis(tricyclohexylphosphine)transition metal (transition metal chromium, molybdenum, tungsten)

Gonzalez A.A., Hoff C.D.

Inorganic Chemistry, 1989

10.1021/ja00182a036

Kinetics by high-pressure nuclear magnetic resonance: reversible hydrogen binding in chromium carbonyl dihydrogen triphenylphosphine complex (.eta.2-H2)Cr(CO)3[P(C6H11)3]2

Millar J.M., Kastrup R.V., Melchior M.T., Horvath I.T., Hoff C.D., Crabtree R.H.

Journal of the American Chemical Society, 1990

10.1021/ja00237a011

Ab initio theoretical studies of dihydrogen coordination vs. oxidative addition of H2 to five-coordinate tungsten complexes

Hay P.J.

Journal of the American Chemical Society, 1987

10.

10.1002/anie.199108321

[Cu(η2-H2)Cl], a Model Compound for H2 Complexes. Ab Initio Calculations and Identification by IR Spectroscopy

Plitt H.S., Bär M.R., Ahlrichs R., Schnöckel H.

1991

11.

10.1070/MC1991v001n04ABEH000089_bib5_1

Jackson

J. Am. Chem. Soc., 1990

12.

10.1021/ja00273a017

Structure and thermal reactions of dihydrogen complexes: the IR characterization of M(CO)5(H2) (M = chromium, molybdenum, and tungsten) and cis-Cr(CO)4(H2)2 in liquid xenon solution and the formation of HD during exchange of hydrogen and deuterium

Upmacis R.K., Poliakoff M., Turner J.J.

Journal of the American Chemical Society, 1986

13.

10.1021/ja00168a027

Organometallic chemistry in supercritical fluids. The generation and detection of dinitrogen and nonclassical dihydrogen complexes of Group 6, 7, and 8 transition metals at room temperature

Howdle S.M., Healy M.A., Poliakoff M.

Journal of the American Chemical Society, 1990

14.

See e.g. F.-W. Grevels, W. E. Klotzbücher and K. Schaffner, Chem. Rev., in the press.

15.

10.1016/0009-2614(83)87284-4

Metal carbonyl bond strengths: Applications of photoacoustic calorimetry

Bernstein M., Simon J.D., Peters K.S.

Chemical Physics Letters, 1983

16.

10.1021/ja00312a007

Simultaneous determination of photoreaction dynamics and energetics using pulsed, time-resolved photoacoustic calorimetry

Rudzki J.E., Goodman J.L., Peters K.S.

Journal of the American Chemical Society, 1985

17.

10.1016/0009-2614(86)87100-7

Strength of the metal-ligand bond in LCr(CO)5 measured by photoacoustic calorimetry

Yang G.K., Peters K.S., Vaida V.

Chemical Physics Letters, 1986

18.

10.1016/S0277-5387(00)81787-8

Application of time-resolved photoacoustic calorimetry to CrL bond enthalpies in Cr(CO)5L

Yang G.K., Vaida V., Peters K.S.

Polyhedron, 1988

19.

10.1021/ja00244a046

Heats of reaction of Cp(PMe3)Ir(R)(H) (R = C6H5, C6H11, H) with HCl, CCl4, CBr4, and MeI. A solution thermochemical study of the C-H insertion reaction

Nolan S.P., Hoff C.D., Stoutland P.O., Newman L.J., Buchanan J.M., Bergman R.G., Yang G.K., Peters K.S.

Journal of the American Chemical Society, 1987

20.

10.1016/S0277-5387(00)80439-8

Photoacoustic calorimetry studies of ligand-exchange of aliphatic amines with Cr(CO)6: Steric effects and hydrogen bonding

Burkey T.J.

Polyhedron, 1989

21.

10.1021/om00112a031

Enthalpy of carbonyl dissociation from metal hexacarbonyls M(CO)6 (M = chromium, molybdenum, tungsten) in alkane solvent: determination of intermolecular agostic bond strengths

Morse J.M., Parker G.H., Burkey T.J.

Organometallics, 1989

22.

10.1021/ja00179a016

Thermochemistry of silane substitution of CO in metal carbonyl complexes. Interaction of silanes with metal centers

Burkey T.J.

Journal of the American Chemical Society, 1990

23.

10.1021/ja00159a069

Metal-ligand bond dissociation energies in CpMn(CO)2L complexes

Klassen J.K., Selke M., Sorensen A.A., Yang G.K.

Journal of the American Chemical Society, 1990

24.

10.1070/QE1984v014n02ABEH004877

Dependences of the parameters of an optoacoustic signal on the radius of the excited region

Dzhidzhoev M.S., Popov V.K., Platonenko V.T., Chugunov A.V.

Soviet Journal of Quantum Electronics, 1984

25.

10.1039/C39900000913

‘Non-classical’ dihydrogen complexes of vanadium: the spectroscopic characterization of [(η⁵-C₅H₅)V(CO)₃(H₂)] in solution at both cryogenic and room temperatures

Haward M.T., George M.W., Howdle S.M., Poliakoff M.

Journal of the Chemical Society Chemical Communications, 1990

26.

10.1021/j100240a032

Laser flash photolysis of M(CO)6 (M = Cr, Mo, or W) in perfluoromethylcyclohexane. The generation of highly reactive coordinatively unsaturated species

Kelly J.M., Long C., Bonneau R.

The Journal of Physical Chemistry, 1983

27.

10.1021/j100284a005

Photodissociation of chromium hexacarbonyl in solution: direct observation of the formation of pentacarbonyl(methanol)chromium

Simon J.D., Xie X.

The Journal of Physical Chemistry, 1986

28.

10.1021/ja00234a020

Unsaturated transition-metal complexes in solution: naked Cr(CO)5 in cyclohexane solution observed by picosecond IR transient absorption

Wang L., Zhu X., Spears K.G.

Journal of the American Chemical Society, 1988

29.

M. W. George, PhD Thesis, University of Nottingham, UK, 1990. in press.

30.

10.1070/MC1991v001n01ABEH000016

Steric Effects in the Kinetics of Organometallic Reactions: A Time-Resolved Infrared Study of [(η5-C5R5)Mn(CO)2] (R = H, Me or Et) in n-heptane Solution

Johnson F.P., George M.W., Bagratashvili V.N., Vereshchagina L.N., Poliakoff M.

Mendeleev Communications, 1991

31.

10.1021/ic50205a042

Photosubstitution of cyclopentadienylvanadium tetracarbonyl

Alway D.G., Barnett K.W.

Inorganic Chemistry, 1980

32.

10.1021/om00109a003

Photochemistry of (.eta.5-cyclopentadienyl)tetracarbonylvanadium in frozen gas matrixes at ca. 12 K. Infrared spectroscopic evidence for species arising from carbon monoxide ejection and ring dechelation processes

Hitam R.B., Rest A.J.

Organometallics, 1989

33.

10.1021/ar00080a002

Determination and significance of transition metal-alkyl bond dissociation energies

Halpern J.

Accounts of Chemical Research, 1982

34.

10.1021/ic50088a064

Kinetic studies of the reactions of cyclopentadienylvanadium tetracarbonyl with Lewis base ligands

Faber G.C., Angelici R.J.

Inorganic Chemistry, 1970

35.

10.1021/ic00217a011

Synthesis, structure, and reactivity of (.eta.5-indenyl)tetracarbonylvanadium(I)

Kowaleski R.M., Kipp D.O., Stauffer K.J., Swepston P.N., Basolo F.

Inorganic Chemistry, 1985

36.

10.1039/dc9888600271

Infrared spectroscopy and chemistry in liquid rare-gas solvents

Turner J.J., Poliakoff M., Howdle S.M., Jackson S.A., McLaughlin J.G.

Faraday Discussions of the Chemical Society, 1988