about
An aqueous, polymer-based redox-flow battery using non-corrosive, safe, and low-cost materialsConditional repair by locally switching the thermal healing capability of dynamic covalent polymers with light.Tandem mass spectrometry of poly(ethylene imine)s by electrospray ionization (ESI) and matrix-assisted laser desorption/ionization (MALDI).Combinatorial screening of inkjet printed ternary blends for organic photovoltaics: absorption behavior and morphology.Poly(2-vinyl pyridine)-block-poly(ethylene oxide) featuring a furan group at the block junction-synthesis and functionalization.Redox-Flow Batteries: From Metals to Organic Redox-Active Materials.Functional soft materials from metallopolymers and metallosupramolecular polymers.Photogenerated avenues in macromolecules containing Re(I), Ru(II), Os(II), and Ir(III) metal complexes of pyridine-based ligands.The marriage of terpyridines and inorganic nanoparticles: synthetic aspects, characterization techniques, and potential applications.Metal-containing polymers via electropolymerization.Powering up the future: radical polymers for battery applications.Fluorescent monomers as building blocks for dye labeled polymers: synthesis and application in energy conversion, biolabeling and sensors.Self-healing materials.Two-dimensional Raman correlation spectroscopy reveals molecular structural changes during temperature-induced self-healing in polymers based on the Diels-Alder reaction.2-[1-(1-Naphth-yl)-1H-1,2,3-triazol-4-yl]pyridine.An Approach Toward Replacing Vanadium: A Single Organic Molecule for the Anode and Cathode of an Aqueous Redox-Flow Battery.Complexation of terpyridine-containing dextrans: toward water-soluble supramolecular structures.N-heterocyclic donor- and acceptor-type ligands based on 2-(1H-[1,2,3]triazol-4-yl)pyridines and their ruthenium(II) complexes.Anion complexation by triazolium "ligands": mono- and bis-tridentate complexes of sulfate.Self-healing polymer coatings based on crosslinked metallosupramolecular copolymers.Advanced supramolecular initiator for nitroxide-mediated polymerizations containing both metal-ion coordination and hydrogen-bonding sites.Fluorescence study of energy transfer in PMMA polymers with pendant oligo-phenylene-ethynylenes.2,2':6',2''-Terpyridine meets 2,6-bis(1H-1,2,3-triazol-4-yl)pyridine: tuning the electro-optical properties of ruthenium(II) complexes.2-(1H-1,2,3-triazol-4-yl)-pyridine ligands as alternatives to 2,2'-bipyridines in ruthenium(II) complexes.Thermally Switchable Fluorescence Resonance Energy Transfer via Reversible Diels-Alder Reaction of π-Conjugated Oligo-(Phenylene Ethynylene)s.Polymeric Halogen-Bond-Based Donor Systems Showing Self-Healing Behavior in Thin Films.Do You Get What You See? Understanding Molecular Self-Healing.Poly(TEMPO)/Zinc Hybrid-Flow Battery: A Novel, "Green," High Voltage, and Safe Energy Storage System.Self-assembly of 3,6-bis(4-triazolyl)pyridazine ligands with copper(I) and silver(I) ions: time-dependant 2D-NOESY and ultracentrifuge measurements.Assorted Phenoxyl-Radical Polymers and Their Application in Lithium-Organic Batteries.Investigation of Ice-Templated Porous Electrodes for Application in Organic Batteries.Hydrogel-Embedded Model Photocatalytic System Investigated by Raman and IR Spectroscopy Assisted by Density Functional Theory Calculations and Two-Dimensional Correlation Analysis.Modification of the active layer/PEDOT:PSS interface by solvent additives resulting in improvement of the performance of organic solar cells.Polymers based on stable phenoxyl radicals for the use in organic radical batteries.The self-healing potential of triazole-pyridine-based metallopolymers.An Aqueous Redox-Flow Battery with High Capacity and Power: The TEMPTMA/MV System.Bi-diketopyrrolopyrrole (Bi-DPP) as a novel electron accepting compound in low band gap π-conjugated donor-acceptor copolymers/oligomers.Molecular self-healing mechanisms between C60-fullerene and anthracene unveiled by Raman and two-dimensional correlation spectroscopyReactive Inkjet Printing of Cathodes for Organic Radical BatteriesSelf-Healing Materials via Reversible Crosslinking of Poly(ethylene oxide)-Block-Poly(furfuryl glycidyl ether) (PEO-b-PFGE) Block Copolymer Films
P50
Q29544997-248C0340-A78E-4FD8-AF6E-F638FEC2FE0EQ30832178-745CBDF0-E16A-4E63-9466-79B25442DD3EQ34142695-D11098E3-4719-4584-912D-FD8649D246FBQ35085322-5797E0CC-FF8C-4ADF-820E-B28C4BAD811BQ35116860-C16E7238-AA94-487D-B055-161633F82A02Q37596030-80809525-4A51-42A0-8402-63D54F949536Q37845139-75880500-F8B9-4B1E-8EFC-F45BC2869C1BQ37955654-0F24948C-166C-4C01-9B81-C6CD27740730Q37959887-A4F97469-FD04-4723-9448-98F57D6A0D74Q37970039-AA6642CA-FA29-44FB-92BC-08687B0E0FAAQ38067293-19701248-2266-4F16-AAB6-DBA1931F9706Q38088641-23430ABB-9767-49AE-8CE9-5EA6A38471C0Q39838086-E66E930B-D7B3-4728-9547-3B93998931A5Q40861239-EF00DB49-1E19-4225-88AE-E03817DED36CQ42007914-43FA7578-00D5-417A-9E56-899C09C9D01CQ42291699-5E501AE5-3BC5-4C08-B47B-9B5A43EF6A6DQ42733917-C98ED838-7222-47DB-8BB4-A6F0E49FA45FQ43055723-91C1FD16-7656-490A-BF63-155464C1995FQ43060356-A7FDC9BD-483D-448A-A97D-0B135D27D61AQ43817326-8DA72125-D1FA-47AE-9388-E226427A3AA2Q45979288-B6DB3BCD-2DFA-401A-A15E-B427D8F3E9E1Q46133016-D385BEAC-1D40-4E1C-893E-EDC19D878422Q46155569-7FD58B27-2BBA-45DB-A5AF-8A8AC10AC539Q46240574-47535AE5-D246-4BE3-95E0-F7ADCE76B1B1Q48041858-F4E48261-4635-4583-8F47-EB3D78653EA9Q48156592-6B3809CF-EA8F-4F6D-8D6B-E0758CE63CA8Q48367749-8B7E21B8-C18A-4B85-9FE6-9C8C7B27CCC5Q50232984-76476FA1-9A78-4F62-B8B3-9F8558FA1215Q50544757-4F1FC89E-37F7-4F4F-9E26-E9469AE385DDQ51472515-0AE6994D-443A-4430-A0DA-6BC9EC011F6CQ51833904-125A0AE2-6889-4B2A-BD21-4DB87A48C5EDQ52372798-9CA74CF4-6911-4AC0-B3CC-1BC7255A153AQ53513527-AC5430F1-2B67-4D77-953A-6EADDAB793AEQ53593597-84D25035-14EC-4D24-849F-2F682E1B2ECBQ53655204-16E8B25B-1A29-4FB7-8927-BC3FC86BB3ECQ54422610-ED7E44F8-B1F4-4C67-A525-996DA6AC7A7BQ55001923-FE75F4C8-95AA-4A36-846A-5CD2E7EBB0E5Q56045631-644A3F9E-610A-444C-8964-C72346FFBCD6Q57074093-8AAB0000-387B-4E6B-B3A6-3AF8E5A7CBABQ57074097-1CD7CA81-BBA3-466E-B2B9-6BBD3933B0C4
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Martin D. Hager
@ast
Martin D. Hager
@en
Martin D. Hager
@es
Martin D. Hager
@nl
Martin D. Hager
@sl
type
label
Martin D. Hager
@ast
Martin D. Hager
@en
Martin D. Hager
@es
Martin D. Hager
@nl
Martin D. Hager
@sl
prefLabel
Martin D. Hager
@ast
Martin D. Hager
@en
Martin D. Hager
@es
Martin D. Hager
@nl
Martin D. Hager
@sl
P244
P1053
D-9084-2011
P106
P1153
7006220799
P21
P214
22147422908944880123
P244
nb2016016934
P31
P3829
P496
0000-0002-6373-6600
P734
P735
P7859
lccn-nb2016016934