about
Stabilization of the triphosphallyl ligand η3-P3{P(O)H} at iridium via alkaline activation of P4.Synthesis of new enantiomerically enriched beta-Hydroxy-gamma-amino phosphines by selective transformation of naturally occurring amino acids.New Wind in Old Sails: Novel Applications of Triphos-based Transition Metal Complexes as Homogeneous Catalysts for Small Molecules and Renewables Activation.Rationalization of the inhibition activity of structurally related organometallic compounds against the drug target cathepsin B by DFT.Synthesis, catalytic properties and biological activity of new water soluble ruthenium cyclopentadienyl PTA complexes [(C5R5)RuCl(PTA)2] (R = H, Me; PTA = 1,3,5-triaza-7-phosphaadamantane).Carbon dioxide hydrogenation catalysed by well-defined Mn(i) PNP pincer hydride complexes.Counterion-dependent deuteration of pentamethylcyclopentadiene in water-soluble cationic Rh(III) complexes assisted by PTA.Cyclopentadienyl ruthenium(II) complexes with bridging alkynylphosphine ligands: synthesis and electrochemical studies.Formic acid dehydrogenation catalysed by ruthenium complexes bearing the tripodal ligands triphos and NP3.Steric and electronic effects on the reactivity of rh and ir complexes containing P-S, P-P, and P-O ligands. Implications for the effects of chelate ligands in catalysis.Solution and solid-state dynamics of metal-coordinated white phosphorus.NMR studies on the novel heterobimetallic complexes [M(dppm)(Ph(2)PCH(2)PPh(2)PPPP) {Pt(PPh3)2}]OTf (M = Rh, Ir) derived from the stepwise activation of white phosphorus.Mechanistic studies on NaHCO3 hydrogenation and HCOOH dehydrogenation reactions catalysed by a Fe(II) linear tetraphosphine complex.Diastereomerically enriched analogues of the water-soluble phosphine PTA. Synthesis of phenyl(1,3,5-triaza-7-phosphatricyclo[3.3.1.1(3,7)]dec-6-yl)methanol (PZA) and the sulfide PZA(S) and X-ray crystal structures of the oxide PZA(O) and [Cp*IrCl(2)New Class of Half-Sandwich Ruthenium(II) Arene Complexes Bearing the Water-Soluble CAP Ligand as an in Vitro Anticancer Agent.Water-Soluble Silver(I) Complexes Featuring the Hemilabile 3,7-Dimethyl-1,3,5-triaza-7-phosphabicyclo[3.3.1]nonane Ligand: Synthesis, Characterization, and Antimicrobial Activity.Transfer hydrogenation of ketones catalyzed by surface-active ruthenium and rhodium complexes in water.Dynamic behaviour of Ru and Ru–Pt complexes containing tetrahedro-P4 ligandBifunctional metallodendrimers based on AB5 derivatives of cyclotriphosphazene as core and P,N ligands as terminal functionsNumber of terminal groups versus generation of the dendrimer, which criteria influence the catalytic properties?Grafting of water-soluble phosphines to dendrimers and their use in catalysis: positive dendritic effects in aqueous mediaAmino-phosphanes in RhI-Catalyzed Hydroformylation: Hemilabile Behavior of P,N Ligands under High CO Pressure and Catalytic PropertiesOn the protonation of ruthenium-PTA complexes in water. X-ray crystal structure of RuCl4(PTAH)2·4 H2O (PTA=1,3,5-triaza-7-phosphaadamantane)Coordination chemistry of 1,3,5-triaza-7-phosphaadamantane (PTA)Water soluble ruthenium cyclopentadienyl and aminocyclopentadienyl PTA complexes as catalysts for selective hydrogenation of α,β-unsaturated substrates (PTA=1,3,5-triaza-7-phosphaadamantane)Homogenous catalytic hydrogenation of bicarbonate with water soluble aryl phosphine ligandsInfluence of Structural Variation on the Anticancer Activity of RAPTA-Type Complexes: ptn versus pta(Pentamethylcyclopentadienyl)iridium-PTA (PTA = 1,3,5-Triaza-7-phosphaadamantane) Complexes and Their Application in Catalytic Water Phase Carbon Dioxide HydrogenationAqueous phase carbon dioxide and bicarbonate hydrogenation catalyzed by cyclopentadienyl ruthenium complexesIn Vitro Evaluation of Rhodium and Osmium RAPTA Analogues: The Case for Organometallic Anticancer Drugs Not Based on RutheniumA Ligand-Driven Geometry Switch in Octahedral and Trigonal-Bipyramidal Iron Complexes Containing (H)PNO and PNN LigandsOctahedral RuII Complexes with [PNO] Hydrazonic Ligands: Synthesis, Structure, Reactivity and Catalytic Activity in the Addition of Benzoic Acid to AlkynesSelective ruthenium-catalyzed oxidation of 1,2:4,5-di-O-isopropylidene- beta-D-fructopyranose and other alcohols with NaOClHeterobimetallic cooperation mediates the transformation of white phosphorus into zwitterionic catena-phosphonium(+)diphosphenide(-) ligandsStable, water-soluble Pta-based Ru-Ag organometallic polymersP4 activation by late-transition metal complexesA snapshot of P4 tetrahedron opening: Rh- and Ir-mediated activation of white phosphorusAcid-base interaction between transition-metal hydrides: dihydrogen bonding and dihydrogen evolutionNovel synthetic pathways for bis(acyl)phosphine oxide photoinitiatorsSynthesis and characterization of terminal [Re(XCO)(CO)2(triphos)] (X=N, P): isocyanate versus phosphaethynolate complexes
P50
Q30667109-551808EE-4D70-40D9-BE1F-3C9F667BF405Q33296875-8F5D33DC-1801-40BB-9731-F970CA44DFB0Q35823543-E230EEC2-6CAC-4CDC-8AA5-1454E6A37EE7Q39704089-251F9B24-385C-4506-A167-5809D886BC83Q40670857-F096675A-8C78-4E3A-B683-6F3AC819DCAEQ41873771-AFE0BA83-6484-4A77-B0F1-01BD574FB66FQ43120364-0A843C31-9786-4D20-8CC4-1556D2E8C411Q43269337-397F1197-0865-4B5B-A5B0-24ED71F2D2B4Q43938329-D5E06617-5994-4B8F-98C0-B7A07CD43EF8Q44206734-1EB20501-D399-43A7-AC3F-2814CE5C2BCFQ44942479-22440A68-BEE2-46DF-94FA-B88B34BA6CD7Q45016316-72222BC1-DA20-402F-B41B-07E5A036C675Q46240511-1FA6680A-0D4C-46B3-91F5-8D9FA2A1B1A8Q46857884-356D8570-9F13-4F16-86A0-30A95700F9E6Q48232188-86AEB9E6-C8C4-439A-A675-EFECAD0923EAQ54201245-051088CE-AFF2-4EB8-B38B-DA970A0F1E6DQ54438833-DCB13697-8290-4603-926A-998994C3D27FQ57706044-C3158804-1C92-4D0C-941C-D8C2FD467A05Q59438994-522EF232-B612-4E55-8B4C-456202FC6F47Q59439095-55BB0C44-8868-4F85-9B76-434E30EA3AAFQ59439217-9DA090C8-3FFD-4B8E-889B-F322BA9C304CQ60160434-D0D0E2BC-5D51-4857-A0ED-D40485B93F25Q60160435-AAF39040-555D-4A1F-9829-7AC82FF04D37Q60160438-6AB63BA7-5E80-4481-8EA3-FBF2096FF33CQ60160440-939CD5C3-C443-4F0C-A8B3-C8548810D69AQ60212438-2FA8155D-8548-40A6-9802-071A880DD187Q60212576-2E6ABAB4-2FA1-40F1-8586-659FE7DE6736Q60212595-E88BA0B4-11F4-4197-8022-7EECEAF66056Q60212640-CC770012-A729-4A45-8CC0-F780E8531329Q60212691-36435CE0-A330-4455-8C1D-C1360EB8852BQ60235534-7F83D586-32B2-4932-BAE9-D91C75A8A3E9Q61325773-56EF2A26-A43A-43E6-ACEC-68056C02F696Q74051709-58AEBE78-BBE4-4B3E-9A1E-4DA4C4A26EFFQ81084062-A128EA92-52EF-4FFD-A025-AEBB7618FDEBQ81554798-4E4086BE-4747-46E2-9BA2-77B2739797FDQ82969286-5F237F0A-D71A-4C92-B17B-2DE154831945Q83352713-077DA3A3-ADC4-425F-8B09-27BB77DD3727Q83361642-05131D21-8C5F-4489-A12C-FAEABB46D96FQ84524349-BC066C29-0E84-46BB-BE14-D3085EC3D18AQ87389756-FE9BB760-526C-4CC5-B986-E262BB380A04
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luca Gonsalvi
@ast
Luca Gonsalvi
@en
Luca Gonsalvi
@es
Luca Gonsalvi
@nl
Luca Gonsalvi
@sl
type
label
Luca Gonsalvi
@ast
Luca Gonsalvi
@en
Luca Gonsalvi
@es
Luca Gonsalvi
@nl
Luca Gonsalvi
@sl
altLabel
L. Gonsalvi
@nl
prefLabel
Luca Gonsalvi
@ast
Luca Gonsalvi
@en
Luca Gonsalvi
@es
Luca Gonsalvi
@nl
Luca Gonsalvi
@sl
P106
P1153
6603161871
P2038
Luca_Gonsalvi
P21
P31
P3835
luca-gonsalvi
P496
0000-0002-5996-6307