18-crown-6

Known as: 1,4,7,10,13,16-hexaoxacyclooctadecane

National Institutes of Health

Papers overview

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2016

Bromine-rich Zinc Bromides: Zn6Br12(18-crown-6)2×(Br2)5, Zn4Br8(18-crown-6)2×(Br2)3, and Zn6Br12(18-crown-6)2×(Br2)2.

David Hausmann, C. Feldmann
Inorganic chemistry
2016

Corpus ID: 36799823

The bromine-rich zinc bromides Zn6Br12(18-crown-6)2×(Br2)5 (1), Zn4Br8(18-crown-6)2×(Br2)3 (2), and Zn6Br12(18-crown-6)2×(Br2)2… Expand

2016

MnBr₂/18-crown-6 coordination complexes showing high room temperature luminescence and quantum yield.

David Hausmann, A. Kuzmanoski, C. Feldmann
Dalton transactions
2016

Corpus ID: 30272507

The reaction of manganese(ii) bromide and the crown ether 18-crown-6 in the ionic liquid [(n-Bu)3MeN][N(Tf)2] under mild… Expand

Highly Cited

2013

Highly Cited

2013

4-Methoxyanilinium perrhenate 18-crown-6: a new ferroelectric with order originating in swinglike motion slowing down.

D. Fu, Hong-Ling Cai, +6 authors R. Xiong
Physical review letters
2013

Corpus ID: 1252114

A supramolecular adduct 4-methoxyanilinium perrhenate 18-crown-6 was synthesized, which undergoes a disorder-order structural… Expand

Highly Cited

2013

Highly Cited

2013

Cross-Linked Block Copolymer/Ionic Liquid Self-Assembled Blends for Polymer Gel Electrolytes with High Ionic Conductivity and Mechanical Strength

D. Miranda, C. Versek, M. Tuominen, T. Russell, J. Watkins
2013

Corpus ID: 17021206

Poly(propylene oxide)–poly(ethylene oxide)–poly(propylene oxide) (PPO–PEO–PPO) block copolymers (BCPs) with cross-linkable end… Expand

Highly Cited

2008

Highly Cited

2008

Crown ether inclusion complexes of the early actinide elements, [AnO2(18-crown-6)]n+, An = U, Np, Pu and n = 1, 2: a relativistic density functional study.

G. Shamov, G. Schreckenbach, Richard L. Martin, P. Hay
Inorganic chemistry
2008

Corpus ID: 207026667

The title compounds, [AnO2(18-crown-6)]n+, An = U, Np, and Pu and n = 1 and 2, as well as the related (experimentally observed… Expand

Highly Cited

2003

Highly Cited

2003

Critical evaluation of stability constants and thermodynamic functions of metal complexes of crown ethers (IUPAC Technical Report)

F. Arnaud-Neu, R. Delgado, S. Chaves
2003

Corpus ID: 97549495

Stability constants and thermodynamic functions of metal complexes of crown ethers in various solvents published between 1971 and… Expand

Highly Cited

1998

Highly Cited

1998

Synthesis of Diaryl Ethers, Diaryl Thioethers, and Diarylamines Mediated by Potassium Fluoride-Alumina and 18-Crown-6: Expansion of Scope and Utility(1).

J. S. Sawyer, E. A. Schmittling, J. A. Palkowitz, W. Smith
The Journal of organic chemistry
1998

Corpus ID: 9584293

An efficient alternative to the Ullmann ether synthesis of diaryl ethers, diaryl thioethers, and diarylamines involving the S(N… Expand

Highly Cited

1990

Highly Cited

1990

Molecular-dynamics simulation of crystalline 18-crown-6: thermal shortening of covalent bonds

J. V. Eerden, S. Harkema, D. Feil
1990

Corpus ID: 9126473

Molecular-dynamics simulations of crystalline 18-crown-6 have been performed in a study of the apparent thermal shortening of… Expand

Highly Cited

1986

Highly Cited

1986

Electrochemical switching in anthraquinone-substituted carbon-pivot lariat ethers and podands: chain length effects in geometric and electronic cooperativity.

D. A. Gustowski, M. Delgado, V. J. Gatto, L. Echegoyen, G. Gokel
Journal of the American Chemical Society
1986

Corpus ID: 13373924

Synthese d'une serie d'anthraquinones substituees en −1 (ou Ar) par le substituant E=−CH 2 CH 2 - avec formation d'Ar-OCH 3 , Ar… Expand

Highly Cited

1974

Highly Cited

1974

Potassium thiocyanate complex of 1,4,7,10,13,16-hexaoxacyclooctadecane

P. Seiler, M. Dobler, J. Dunitz
1974

Corpus ID: 97898792

18-crown-6

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