Abstract
PhthalocyaninesPc−Me(III)X andPc−Me(V)X 3 were obtained by reacting anhydrous metal halides with phthalodinitrile and di-lithium-phthalocyanine, resp. A phthalocyanine containing niobium(V) was prepared for the first time. Mass spectrometric investigation of the products formed show the molecular ion in the case of chloro-aluminum-, chloro-indium- and tribromo-niobium-phthalocyanine. The mass spectra of chloro-scandium-, chloro-yttrium- and tribromo-tantalum-phthalocyanine showed neither peaks of the molecular mass nor metal containing fragments of the phthalocyanine structure. Mass spectrometric results seem to depend critically on the purity of the compounds employed.
Similar content being viewed by others
Literatur
A. Meller undA. Ossko, Mh. Chem.104, 1055 (1973).
L. P. Shklover undV. E. Plyushchev, J. Fiz. Khim.39, 2924 (1965).
S. D. Nasirdinov, E. A. Shugam, L. I. Berger, L. P. Shklover undM. Z. Gurevich, J. Fiz. Khim.40, 2614 (1966).
W. E. Plyushew undL. P. Shklover, J. Neorg. Khim.9, 2015 (1964).
Y. A. Buslaev, A. A. Kuznetsova undL. F. Goryachova, Izv. Akad. Nauk SSSR, Neorg. Mater.3, 1701 (1967).
P. Mühl, Kristall und Technik2, 431 (1967).
P. A. Barret, C. E. Dent undR. P. Linstead, J. Chem. Soc. [London]1936, 1719.
H. C. Hill undR. I. Reed, Tetrahedron20, 1359 (1964).
H. C. Hill undR. I. Reed, Appl. Spectrosc.21, 122 (1967).
J. H. Beynon, R. A. Saunders undA. E. Williams, Appl. Spectrosc.17, 63 (1963).
H. A. O. Hill undM. M. Norgett, J. Chem. Soc.A 1966, 1476.
M. Starke undR. Tümmler, Z. Chem.7, 433 (1967).
K. Varmuza undP. Krenmayr, Mh. Chem.103, 1055 (1972).
Author information
Authors and Affiliations
Additional information
Mit 1 Abbildung
Rights and permissions
About this article
Cite this article
Varmuza, K., Maresch, G. & Meller, A. Massenspektrometrische Untersuchungen von PhthalocyaninenPc—MeX n . Monatshefte für Chemie 105, 327–333 (1974). https://doi.org/10.1007/BF00907380
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00907380