about
A Unified pH Scale for All PhasesNoncoordinating anions--fact or fiction? A survey of likely candidatesCrystal structure determination of the nonclassical 2-norbornyl cationSupramolecular bidentate ligands by metal-directed in situ formation of antiparallel beta-sheet structures and application in asymmetric catalysis.Free volume in ionic liquids: a connection of experimentally accessible observables from PALS and PVT experiments with the molecular structure from XRD data.New water-stable ionic liquids based on tetrakis-(2,2,2-trifluoroethoxy)borate.Li[B(OCH2CF3)4]: synthesis, characterization and electrochemical application as a conducting salt for LiSB batteries.Exploring the chemistry of free CI3+: reactions with the weak Lewis bases PX3 (X = Cl-I), AsI3 and Et2O.Superweak complexes of tetrahedral P4 molecules with the silver cation of weakly coordinating anions.Making sense of enthalpy of vaporization trends for ionic liquids: new experimental and simulation data show a simple linear relationship and help reconcile previous data.Cationic cluster formation versus disproportionation of low-valent indium and gallium complexes of 2,2'-bipyridineThe protoelectric potential map (PPM): an absolute two-dimensional chemical potential scale for a global understanding of chemistry.A unified view to Brønsted acidity scales: do we need solvated protons?Reactive p-block cations stabilized by weakly coordinating anions.Ionic Liquids with Weakly Coordinating [M(III)(OR(F))4](-) Anions.In silico modelling for predicting the cationic hydrophobicity and cytotoxicity of ionic liquids towards the Leukemia rat cell line, Vibrio fischeri and Scenedesmus vacuolatus based on molecular interaction potentials of ions.Homoleptic Gold Acetonitrile Complexes with Medium to Very Weakly Coordinating Counterions: Effect on Aurophilicity?Effect of Dimethyl Carbonate on the Dynamic Properties and Ionicities of Ionic Liquids with [M(III) (hfip)4 ](-) (M=B, Al) Anions.[Ni(cod)2][Al(OR(F))4], a Source for Naked Nickel(I) ChemistryDSR: enhanced modelling and refinement of disordered structures with SHELXL.A Ferrocenyl-Backboned Unsymmetric O,C-Coordinating Ligand and Its Tin Derivatives.Silver-ethene complexes [Ag(eta(2)-C2H4)n][Al(OR(F))4] with n = 1, 2, 3 (R(F) = fluorine-substituted group).Temperature dependence of the viscosity and conductivity of mildly functionalized and non-functionalized [Tf2N](-) ionic liquids.In silico predictions of the temperature-dependent viscosities and electrical conductivities of functionalized and nonfunctionalized ionic liquids.Synthesis of room-temperature ionic liquids with the weakly coordinating [Al(ORF)4]- anion (RF=C(H)(CF3)2) and the determination of their principal physical properties.Thermal hysteresis in dithiadiazolyl and dithiazolyl radicals induced by supercooling of paramagnetic liquids close to room temperature: a study of F3CCNSSN and an interpretation of the behaviour of F3CCSNSCCF3.PX4+, P2X5+, and P5X2+ (X=Br, I) salts of the superweak Al(OR)4- anion [R=C(CF3)3].Gold(I) mediated rearrangement of [7]-helicene to give a benzo[cd]pyrenium cation embedded in a chiral framework.A systematic investigation of coinage metal carbonyl complexes stabilized by fluorinated alkoxy aluminates.Predicting the critical micelle concentrations of aqueous solutions of ionic liquids and other ionic surfactants.CCl3(+) and CBr3(+) salts with the [Al(OR(F))4]- and [((F)RO)3Al-F-Al(OR(F))3]- anions (R(F) = C(CF3)3).Superacidic or not…? Synthesis, characterisation, and acidity of the room-temperature ionic liquid [C(CH3)3]+ [Al2Br7]-.From weakly coordinating to non-coordinating anions? A simple preparation of the silver salt of the least coordinating anion and its application to determine the ground state structure of the Ag(eta2-P4)2+ cation.Dative bonds in main-group compounds: a case for fewer arrows!Applying the unified pH scale: absolute acidities in the gas phase and anchor points for eleven representative liquid media.Communication: Are hydrodynamic models suited for describing the reorientational dynamics of ions in ionic liquids? A case study of methylimidazolium tetra(hexafluoroisopropoxy)aluminates.Synthesis, structures and characterisations of truly homoleptic acetonitrile Ln3+ complexes in solid state and in solution.Temperature-dependent prediction of the liquid entropy of ionic liquids.An experimental and theoretical study of the aluminium species present in mixtures of AlCl3 with the ionic liquids [BMP]Tf2N and [EMIm]Tf2N.From Square-Planar [ICl4 ]- to Novel Chloroiodates(III)? A Systematic Experimental and Theoretical Investigation of Their Ionic Liquids.
P50
Q21994488-76A217A4-02F3-4CD3-A718-CF2D57D1B85CQ28256380-8962B424-5261-4CE9-9067-7D6D624667BEQ28294008-73108749-2F20-47F1-8224-11076EA94C6BQ30369196-73787DFD-B7FB-49F2-AC97-2ECE233E8E72Q30620927-6E5CC3AD-48BD-4B2D-A2DD-0661173A7C29Q30850319-94C84B9A-B92F-4928-A08B-C0112EE0F2EBQ30880566-C8C124C3-23F4-4C58-86A6-862CD629D65BQ31137146-8E7C40F7-E9A7-48DB-BEA2-EAF7365E5232Q32063369-7F5E48C4-8D1E-4F4F-A333-2419AC9D1219Q34698805-F898F337-6DFA-4760-BD49-C95805E3F084Q36250911-A251DFF0-A73F-4A38-A38C-FB1D2AF5D3EFQ38194979-3EB990F9-8F43-4DD6-ABFD-F39B35DF87EDQ38238883-BB39A924-D41C-4D9F-A71B-B9C5271DFAE4Q38543952-D34926AB-0CD7-474B-8C76-12798BE5CF09Q38572146-087F4519-04CE-4E14-A674-02D6DF21F9CCQ39103778-2FB6632C-B161-4686-8941-5FC629C21630Q39424117-C67344A1-A462-4B81-A634-84999A733EFAQ41069090-2854056C-9374-47D4-ADD5-4657B6BBC169Q41155274-8E91C35D-394A-4B0C-B2A4-D2EAD83135CBQ42092980-D3810821-A0D7-49E1-AABA-BBB71EE80964Q42364097-878608F4-771F-43B1-8D1A-15A4445CACECQ43289228-B56D044B-F297-491C-BDB1-A1BA2E13D7DCQ43556249-3EDEF357-FC6A-4CBD-90F7-573419C47F6BQ43712622-1B3D48BC-BEE8-46F2-A747-AF522C354D86Q44041744-CBBF2CE8-228F-423F-B1DE-F2D4AF51876FQ44149988-E0636898-F974-4C12-8B57-244F8BD694D7Q44159809-0699D4F1-5D71-453E-AC5B-0F3EF1AB57EEQ44625747-1BCA5359-345A-4E61-9564-FC2128BA0E19Q44642862-7D7F6EA9-6A4B-4C94-805F-317AB8E6B08BQ44698538-1F6B1908-9976-43B3-85DB-BF73021EBECFQ44904044-DE4D502C-0D62-43E3-B9F2-14076E1E2507Q44918181-DEC38488-04BA-46E1-AF87-B0C553D8C82BQ45062578-369FA781-9622-46E5-9DF3-D4FCD8ED2AD1Q45181558-F7036F20-906D-4845-82B5-D50066C0145BQ45789145-6CA4461C-4707-44FE-85E8-E5430FF950A9Q45891408-CC337E27-9E5F-4E05-BEDE-4FA92540D408Q45948810-C2496B88-75DD-46A7-8DDF-151A42D83039Q46071739-6CA32ABD-C21E-4FB5-808A-6FC83D0E9CAEQ46116015-EA2E65F4-EA00-4033-96E6-BE68EC2914C7Q46328399-B4051DE0-DA88-4682-B350-DBE063D93D9E
P50
description
chemist
@en
scheikundige
@nl
name
Ingo Krossing
@ast
Ingo Krossing
@en
Ingo Krossing
@es
Ingo Krossing
@nl
Ingo Krossing
@sl
Ingo Krossing
@sq
type
label
Ingo Krossing
@ast
Ingo Krossing
@en
Ingo Krossing
@es
Ingo Krossing
@nl
Ingo Krossing
@sl
Ingo Krossing
@sq
prefLabel
Ingo Krossing
@ast
Ingo Krossing
@en
Ingo Krossing
@es
Ingo Krossing
@nl
Ingo Krossing
@sl
Ingo Krossing
@sq
P214
P227
P1053
L-7693-2015
P21
P213
0000 0000 5533 8229
P214
P227
P31
P3829
P496
0000-0002-7182-4387
P569
1968-01-01T00:00:00Z
P691
jn19990004680
P734
P735
P7859
viaf-22929232