about
Complexation and extraction of PAHs to the aqueous phase with a dinuclear Pt(II) diazapyrenium-based metallacycle.Artificial switchable catalysts.DNA binding studies and cytotoxicity of a dinuclear PtII diazapyrenium-based metallo-supramolecular rectangular box.Selecting reactions and reactants using a switchable rotaxane organocatalyst with two different active sites.Complexation of pyrene in aqueous solution with a self-assembled palladium metallocycle.Expanding the cavity size: preparation of 2:1 inclusion complexes based on dinuclear square metallocycles.Dimensional matching of polycyclic aromatics with rectangular metallacycles: insertion modes determined by [C-H···π] interactions.Regioselective catenation of dinuclear palladium and platinum metallocycles promoted by pi...pi interactions.Stereoselective self-assembly of atropoisomeric Pd(II) metallocycles induced by an aromatic guest.Self-assembly of Pd2L2 Metallacycles Owning Diversely Functionalized Racemic Ligands.Molecular catenation via metal-directed self-assembly and pi-donor/pi-acceptor interactions: efficient one-pot synthesis, characterization, and crystal structures of [3]catenanes based on Pd or Pt dinuclear metallocycles.Amplification of a metallacyclic receptor out of a dynamic combinatorial library.Stimuli-responsive metal-directed self-assembly of a ring-in-ring complex.Enantiopure distorted ribbon-shaped nanographene combining two-photon absorption-based upconversion and circularly polarized luminescence.A Switchable [2]Rotaxane Asymmetric Organocatalyst That Utilizes an Acyclic Chiral Secondary AmineToward Metal Complexes That Can Directionally Walk Along Tracks: Controlled Stepping of a Molecular Biped with a Palladium(II) FootA Rotaxane-Based Switchable OrganocatalystReasons behind the Relative Abundances of Heptacoordinate Complexes along the Late First-Row Transition Metal SeriesOFF/ON switching of circularly polarized luminescence by oxophilic interaction of homochiral sulfoxide-containing o-OPEs with metal cationsSynthesis of [3]catenanes based on metal-directed self-assembly and pi-donor/pi-acceptor interactionsSelf-assembly of 1:2 inclusion complexes between a metallocycle host and dihydroxyaromatic guests: a redox controlled complexation processA new doubly interlocked [2]catenaneSynthesis of platinum(II) metallocycles using microwave-assisted heating[2]Catenanes and inclusion complexes derived from self-assembled rectangular Pd(II) and Pt(II) metallocyclesDynamic formation of self-organized corner-connected square metallocycles by stoichiometric controlAggregation-induced emission of [3]cumulenes functionalized with heptagon-containing polyphenylenesA [2]Rotaxane-Based Circularly Polarized Luminescence SwitchO-H and (CO)N-H bond weakening by coordination to Fe(ii)Thinking Outside the "Blue Box": Induced Fit within a Unique Self-Assembled Polycationic Cyclophane[2]Rotaxane End-Capping Synthesis by Click Michael-Type Addition to the Vinyl Sulfonyl GroupTuning of the Self-Threading of Ring-in-Ring Structures in Aqueous MediaChiral double stapled o-OPEs with intense circularly polarized luminescence
P50
Q33710716-39B028FC-64B1-46E1-8BCB-C654B024D3BEQ38472793-D7AC7D60-5770-40AA-8598-BD653EC9636CQ39312885-82069671-0546-44C7-B13B-DD2D4B90B74FQ42010313-E632E7B7-9D50-4A2B-88DA-7A3A35F3360AQ43135549-22F3A689-5D95-49D8-9276-B7FAE3458209Q43284940-AB6860EE-CEB7-4BDA-8378-E29D87EE81C7Q43721722-5F9A2821-BF8D-401A-97E3-4A3D9B7959CEQ46089258-7DE7BEF2-C1E0-47D8-9C08-5C009E73BD39Q46529565-2A15BEFA-A7F9-47C6-83F4-F7758A19DE6AQ46595731-7BAA9EB5-D37C-4FCC-BDA0-27CFAE5C22A1Q46935723-8B0C9B74-68CD-43C8-BE1B-565F8A0DE4BCQ47811217-261F0B83-4EE6-4FFF-816A-D4908D8E89D8Q53048582-2E2D35BE-3DFA-482E-9272-565819435072Q54941407-8537227D-F9B0-47E1-81EF-91DD301F87B9Q57384131-E00AF719-E37A-4F32-BC29-8B3867AF31A4Q57384136-288D7F2F-A6D8-4E42-BEDE-2D44BBE518A3Q57384139-1B22A60E-0D5E-4F4B-8907-F404E1A1785FQ60492267-6A1617D8-4066-47B6-953A-6154EDEFF166Q62049375-098F681D-2270-4C6D-86F1-EC9289033DBAQ79683459-C98DAECD-66F8-46D3-9830-C4CCAAC22249Q80469066-F332C591-F1DC-4CD7-A0FF-3D6BE8F35815Q83131787-8EA2FB70-3707-4D79-B5B3-AA1F89FBA1A0Q83152635-A7BF9177-FBB5-4E9D-BF59-E6702ABD0F98Q84597123-EEE49C43-30D5-41E5-83CE-B4B0CFC30BF3Q84682099-E0D56869-FF24-4CC7-BC39-ACED368A3F75Q88065097-A2C03B57-D87C-4560-82AC-52A1D0C58ACBQ90871431-9A7F895F-4944-4C5F-9635-ACEF02CA2E7AQ91178156-3103ED6B-5006-4869-8922-323B7A855778Q91397582-2B6A847C-E0B0-4504-B115-5701B0D13DA7Q91575467-AA5575C4-8BE3-4E5D-98C8-13F99D1F4BDFQ92670705-5424EA32-EE1C-4F6C-B8DF-0D60C4C10184Q92737643-4B174130-EF3E-456B-8263-2360DD73116C
P50
description
econoom
@nl
hulumtues
@sq
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Victor Blanco
@en
Victor Blanco
@es
Victor Blanco
@nl
Victor Blanco
@sl
Víctor Blanco
@de
type
label
Victor Blanco
@en
Victor Blanco
@es
Victor Blanco
@nl
Victor Blanco
@sl
Víctor Blanco
@de
altLabel
Victor Blanco Suárez
@en
Victor Blanco-Suárez
@en
prefLabel
Victor Blanco
@en
Victor Blanco
@es
Victor Blanco
@nl
Victor Blanco
@sl
Víctor Blanco
@de
P108
P227
P1053
K-4612-2014
P21
P214
2014152451235106650006
P227
1156415136
P31
P3829
P496
0000-0002-6809-079X