about
Water-soluble alkylated bis{4'-(4-pyridyl)-2,2':6',2''-terpyridine}ruthenium(II) complexes for use as photosensitizers in water oxidation: a complementary experimental and TD-DFT investigation.Chemical development of intracellular protein heterodimerizers.2,2':6',2''-terpyridines: from chemical obscurity to common supramolecular motifs.Kelvin probe force microscopy of nanocrystalline TiO2 photoelectrodes.Stereogenic metal centres - from Werner to supramolecular chemistry.A journey from supramolecular chemistry to nanoscale networks.New chiral oligopyridines-4,4'-bis(disaccharide)-functionalised 2,2'-bipyridines and 4'-(disaccharide)-functionalised 2,2':6',2''-terpyridines.Quantification of single-stranded nucleic acid and oligonucleotide interactions with metal ions by affinity capillary electrophoresis--Part II.Quantification of single-stranded nucleic acid and oligonucleotide interactions with metal ions by affinity capillary electrophoresis: part I.Copper complex-assisted DNA hybridization.Formation of an electron hole doped film in the α-Fe2O3 photoanode upon electrochemical oxidation.All-optical integrated logic operations based on chemical communication between molecular switches.Cell-permeant and photocleavable chemical inducer of dimerization.When is a metallopolymer not a metallopolymer? When it is a metallomacrocycle.Novel grafting procedure of ruthenium 2,2':6',2"-terpyridine complexes with phosphonate ligands to titania for water splitting applications.Towards catenanes using π-stacking interactions and their influence on the spin-state of a bis(2,2':6',2"terpyridine)iron(II) domain.Insights into photoinduced electron transfer between [Ru(mptpy)2]4+ (mptpy = 4'(4-methylpyridinio)-2,2':6',2''-terpyridine) and [S2O8]2-: computational and experimental studies.Mix and match: templating chiral Schiff base ligands to suit the needs of the metal ion.pi-Stacking and hydrogen bonding direct diastereoselectivity in one-pot syntheses of octahedral iron(II) complexes.Intramolecular pi-stacking in a phenylpyrazole-based iridium complex and its use in light-emitting electrochemical cells.Sticky complexes: carboxylic acid-functionalized N-phenylpyridin-2-ylmethanimine ligands as anchoring domains for copper and ruthenium dye-sensitized solar cells.Clicking hard-core sugar balls.Half a grid is better than no grid: competition between 2,2':6',2''-terpyridine and 3,6-di(pyrid-2-yl)pyridazine for copper(II).Amalgamating metalloligands with coordination networks.Diastereoselective complex formation with a simple C(2)-symmetric hexadentate ligand based on a 1,1'-binaphthalene scaffold.Metallomacrocycles with a difference: macrocyclic complexes with exocyclic ruthenium(II)-containing domains.Copper(I) complexes of 6,6'-disubstituted 2,2'-bipyridine dicarboxylic acids: new complexes for incorporation into copper-based dye sensitized solar cells (DSCs).Diversification of ligand families through ferroin-neocuproin metal-binding domain manipulation.Tuning the photophysical properties of cationic iridium(III) complexes containing cyclometallated 1-(2,4-difluorophenyl)-1H-pyrazole through functionalized 2,2'-bipyridine ligands: blue but not blue enough.Electronic energy transfer and collection in luminescent molecular rods containing ruthenium(II) and osmium(II) 2,2':6',2"-terpyridine complexes linked by thiophene-2,5-diyl spacers.A rod-like polymer containing (Ru(terpy)2) units prepared by electrochemical coupling of pendant thienyl moieties.A polymeric sodium complex of 3,6-bis(2-pyridyl)-1,2,4,5-tetrazine.Formation of a [1 + 1] metallomacrocycle from a heterotritopic ligand containing two terpy and one bipy metal-binding domains.Efficient green-light-emitting electrochemical cells based on ionic iridium complexes with sulfone-containing cyclometalating ligands.Chiral induction in a ribose-decorated metallostar through intrinsic and interionic diastereomeric interactions.Self-assembled monolayers of Ru/Os dinuclear complexes: probing monolayer structure and interaction energies by electrochemical means.Preparation and structural characterisation of terpy-cored dendrimers and dendriplexes.Formation of a [2 + 2]-heterotetranuclear macrocycle from reaction of a platina-homoditopic ligand with iron(II).Octyl-decorated Fréchet-type dendrons: a general motif for visualisation of static and dynamic behaviour using scanning tunnelling microscopy?2,2':6',2''-terpyridine substituted in the 4'-position by the solubilizing and sterically demanding tert-butyl group: a surprisingly new ligand.
P50
Q33872325-79A67E68-34B5-4C0D-AA16-467DD5A1110CQ34340381-7965D122-94E2-4B95-B4CF-DCDF3DF10C98Q36723187-99A9A10E-62D7-47EB-8549-D32267F0C9EFQ36982449-319C9713-8BEE-4CFE-BBA8-3B97843E957CQ38043285-4B80EF4F-EE5F-4171-8C65-75BA41A8C953Q38128934-D52A083D-78E0-4F4B-80E6-B99175CAB033Q38287983-D60D600F-A525-440B-A7D4-716BD57E927DQ38289077-9E6DAF24-9BCB-4B9B-8B6F-E417A76BC07DQ38307417-1C1BDED5-948A-4EEA-88FB-141308DC7312Q38307650-877C322A-1A53-4809-8903-661733787404Q39517354-3D662CF7-D71B-4006-B206-A4DEC31298CCQ39863100-A215C80C-91B2-4CB8-80F9-74A61518BE68Q41125585-9801F35C-7181-4C1F-89EA-79EF53CD1254Q42685765-CE9F11F3-ECAA-4700-A7D6-07394D85C00FQ42784065-B951AF7E-963E-4C54-B193-C7A5991099E2Q42859630-70FE64B0-93E5-4BAA-98F2-07A3DF109280Q43068060-2E663313-B868-4AF7-A87F-29D5BB709099Q43071250-B6D444FA-8F0B-4858-9924-F49EE70E9F50Q43083376-96628566-4A8D-4404-9A80-96FA4681695FQ43104781-BC962EB6-08D4-48EB-9EFB-A34032782908Q43114263-577E6670-288A-4E6E-9900-95FF9B5C20D9Q43153345-E6C9F3D3-4A7F-4EA2-863F-1BD4BAE1CA71Q43159657-82693C4B-6A8D-4218-8747-C59660BBDF47Q43165816-6BD01B1E-1103-4385-B14B-07AD33587E0EQ43269460-46A918E4-2188-42DF-9040-75C930FDA778Q43275463-9060D5F6-5B4F-4BA6-8653-BD21495B2792Q43293622-A9E4EB09-EC18-4A43-B111-0078C051E6F5Q43296949-4ABBD613-6E9E-4F04-A9B0-6457EB5D8E46Q43445121-28D7236F-2E77-4C93-A663-567EE0E80E5FQ43873346-7C0F6476-3A81-4BD5-B622-C090DDEDB454Q44073264-38EF35F6-5EDB-40A9-8853-3900E0A03DD1Q44143785-AB11C8E0-31A1-4438-AFD5-551F811F2728Q44162040-80335235-85A2-442D-9FD5-2840853CE188Q44803483-09078C30-39A0-44D7-A35D-56F06188E623Q45001225-9C631EA3-24C1-4FEB-BD66-9D8093D2E859Q45088084-E70A74B6-8961-4BE7-9ABB-D7FEB609DEE0Q45130320-68054DA5-FAF4-4A64-A802-FFF2D3C2291FQ45199587-4C190813-5082-42EB-B79A-FB78985ECC31Q45254675-8DB5647C-1E87-4211-8CE6-930F093B3BF4Q45794823-E1613904-848C-4038-B816-9A12F84AE9F1
P50
description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Edwin C. Constable
@ast
Edwin C. Constable
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Edwin C. Constable
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Edwin C. Constable
@nl
Edwin C. Constable
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type
label
Edwin C. Constable
@ast
Edwin C. Constable
@en
Edwin C. Constable
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Edwin C. Constable
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Edwin C. Constable
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altLabel
Ed Constable
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prefLabel
Edwin C. Constable
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Edwin C. Constable
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Edwin C. Constable
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Edwin C. Constable
@nl
Edwin C. Constable
@sl
P1053
G-5648-2012
P106
P1153
7005405466
P21
P31
P3829
P496
0000-0003-4916-4041