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New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids

Semyon Romanovich Romanov 1
Semyon Romanovich Romanov
Yana Vital'evna Dolgova 1
Yana Vital'evna Dolgova
Kamil A. Ivshin 2
Kamil A. Ivshin
Dmitriy Anatolievich Semenov 3
Dmitriy Anatolievich Semenov
Olga Nikolaevna Kataeva 2
Olga Nikolaevna Kataeva
Vladimir Ivanovich Galkin 1
Vladimir Ivanovich Galkin
10.1016/j.mencom.2021.03.032
Published 2021-03-03
CommunicationVolume 31, Issue 2, 242-243
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Romanov S. R. et al. New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids // Mendeleev Communications. 2021. Vol. 31. No. 2. pp. 242-243.
GOST all authors (up to 50) Copy
Romanov S. R., Dolgova Y. V., Morozov M. V., Ivshin K. A., Semenov D. A., Bakhtiyarova Y. V., Galkina I. V., Kataeva O. N., Galkin V. I. New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids // Mendeleev Communications. 2021. Vol. 31. No. 2. pp. 242-243.
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TY - JOUR
DO - 10.1016/j.mencom.2021.03.032
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.03.032
TI - New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids
T2 - Mendeleev Communications
AU - Romanov, Semyon Romanovich
AU - Dolgova, Yana Vital'evna
AU - Morozov, Maxim Vyacheslavovich
AU - Ivshin, Kamil A.
AU - Semenov, Dmitriy Anatolievich
AU - Bakhtiyarova, Yulia Valerievna
AU - Galkina, Irina Vasilievna
AU - Kataeva, Olga Nikolaevna
AU - Galkin, Vladimir Ivanovich
PY - 2021
DA - 2021/03/03
PB - Mendeleev Communications
SP - 242-243
IS - 2
VL - 31
ER -
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@article{2021_Romanov,
author = {Semyon Romanovich Romanov and Yana Vital'evna Dolgova and Maxim Vyacheslavovich Morozov and Kamil A. Ivshin and Dmitriy Anatolievich Semenov and Yulia Valerievna Bakhtiyarova and Irina Vasilievna Galkina and Olga Nikolaevna Kataeva and Vladimir Ivanovich Galkin},
title = {New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids},
journal = {Mendeleev Communications},
year = {2021},
volume = {31},
publisher = {Mendeleev Communications},
month = {Mar},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.03.032},
number = {2},
pages = {242--243},
doi = {10.1016/j.mencom.2021.03.032}
}
MLA
Cite this
MLA Copy
Romanov, Semyon Romanovich, et al. “New phosphonium salts based on 3-(diphenylphosphino)propanoic and ω-haloalkanoic acids.” Mendeleev Communications, vol. 31, no. 2, Mar. 2021, pp. 242-243. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.03.032.

Keywords

3-(diphenylphosphino)propanoic acid
carboxylic acids
crystal structure
phosphabetaines
phosphonium salts

Abstract

Quarternization of 3-(diphenylphosphino)propanoic acid with ω-haloalkanoic acids affords novel phosphonium salts containing two carboxy groups. The phosphonium salts were treated with 1 M alkali solution to obtain corresponding carboxylate phosphabetaines. The structure of the compounds was established by IR and NMR spectroscopy, elemental analysis and X-ray single crystal diffraction.

References

1.
Low viscous and highly conductive phosphonium ionic liquids based on bis(fluorosulfonyl)amide anion as potential electrolytes
Tsunashima K., Kawabata A., Matsumiya M., Kodama S., Enomoto R., Sugiya M., Kunugi Y.
Electrochemistry Communications, 2011
2.
Oil-miscible and non-corrosive phosphonium-based ionic liquids as candidate lubricant additives
Yu B., Bansal D.G., Qu J., Sun X., Luo H., Dai S., Blau P.J., Bunting B.G., Mordukhovich G., Smolenski D.J.
Wear, 2012
5.
Phosphonium Salt Organocatalysis
Werner T.
Advanced Synthesis and Catalysis, 2009
6.
Survey of Carbon Dioxide Capture in Phosphonium-Based Ionic Liquids and End-Capped Polyethylene Glycol Using DETA (DETA = Diethylenetriamine) as a Model Absorbent
Harper N.D., Nizio K.D., Hendsbee A.D., Masuda J.D., Robertson K.N., Murphy L.J., Johnson M.B., Pye C.C., Clyburne J.A.
Industrial & Engineering Chemistry Research, 2011
7.
Khasiyatullina N.R., Mironov V.F., Gumerova S.K., Voloshina A.D., Sapunova A.S.
Mendeleev Communications, 2019
8.
Khasiyatullina N.R., Vazykhova A.M., Mironov V.F., Krivolapov D.B., Voronina Y.K., Voloshina A.D., Kulik N.V., Strobykina A.S.
Mendeleev Communications, 2017
9.
Tertiary phosphines in reactions with substituted cinnamic acids
Romanov S., Aksunova A., Bakhtiyarova Y., Shulaeva M., Pozdeev O., Egorova S., Galkina I., Galkin V.
Journal of Organometallic Chemistry, 2020
10.
Synthesis of lupane triterpenoids with triphenylphosphonium substituents and studies of their antitumor activity
Spivak A.Y., Nedopekina D.A., Shakurova E.R., Khalitova R.R., Gubaidullin R.R., Odinokov V.N., Dzhemilev U.M., Bel’skii Y.P., Bel’skaya N.V., Stankevich S.A., Korotkaya E.V., Khazanov V.A.
Russian Chemical Bulletin, 2013
11.
Mitochondria-targeted betulinic and ursolic acid derivatives: synthesis and anticancer activity
Nedopekina D.A., Gubaidullin R.R., Odinokov V.N., Maximchik P.V., Zhivotovsky B., Bel'skii Y.P., Khazanov V.A., Manuylova A.V., Gogvadze V., Spivak A.Y.
MedChemComm, 2017
12.
Synthesis, Anticancer, and Antibacterial Activity of Betulinic and Betulonic Acid C-28-Triphenylphosphonium Conjugates with Variable Alkyl Linker Length
Tsepaeva O.V., Nemtarev A.V., Salikhova T.I., Abdullin T.I., Grigor`eva L.R., Khozyainova S.A., Mironov V.F.
Anti-Cancer Agents in Medicinal Chemistry, 2020
13.
Crystal structure of phosphonium carboxylate complexes. The role of the metal coordination geometry, ligand conformation and hydrogen bonding
Galkina I., Tufatullin A., Krivolapov D., Bakhtiyarova Y., Chubukaeva D., Stakheev V., Galkin V., Cherkasov R., Büchner B., Kataeva O.
CrystEngComm, 2014
14.
Synthesis of stable carboxylate phosphabetaines - Potential ligands of the metal complexes
Galkina I., Romanov S., Gerasimov A., Bakhtiyarova Y., Galkin V.
Journal of Organometallic Chemistry, 2020
15.
Carboxylate phosphabetaine as a bifunctional organocatalyst for the intramolecular ring opening of oxetane
Xu D., Wei H., Zhen Y., Gao Y., Li R., Li X., He Y., Zhang Z., Xie W.
Organic Chemistry Frontiers, 2019
18.
Latest advances in zwitterionic structures modified dialysis membranes
Mollahosseini A., Abdelrasoul A., Shoker A.
Materials Today Chemistry, 2020
19.
Zwitterionic materials for antifouling membrane surface construction
He M., Gao K., Zhou L., Jiao Z., Wu M., Cao J., You X., Cai Z., Su Y., Jiang Z.
Acta Biomaterialia, 2016
20.
New di- and tricarboxylate phosphabetaines
Bakhtiyarova Y.V., Aksunova A.F., Minnullin R.R., Galkina I.V., Galkin V.I.
Russian Chemical Bulletin, 2016
21.
The reaction of phosphorylation of trans-aconitic acid by tertiary phosphines
Bakhtiyarova Y.V., Aksunova A.F., Romanov S.R., Bakhtiyarov D.I., Ivshin K.A., Kataeva O.N., Egorova S.N., Galkina I.V., Galkin V.I.
Phosphorus, Sulfur and Silicon and the Related Elements, 2018
22.
Triphenylphosphine in reactions with ω-haloalkylcarboxylic acids
Romanov S.R., Aksunova A.F., Islamov D.R., Dobrynin A.B., Krivolapov D.B., Kataeva O.N., Bakhtiyarova Y.V., Gnezdilov O.I., Galkina I.V., Galkin V.I.
Phosphorus, Sulfur and Silicon and the Related Elements, 2016