Nome |
# |
Palladium complexes with simple iminopyridines as catalysts for polyketone synthesis, file e2913fda-939c-f688-e053-3705fe0a67e0
|
388
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Thirty Years of the Drug Candidate NAMI-A and the Myths in the Field of Ruthenium Anticancer Compounds: A Personal Perspective, file e2913fdb-34bc-f688-e053-3705fe0a67e0
|
270
|
Neutral 1,3,5-Triaza-7-phosphaadamantane-Ruthenium(II) Complexes as Precursors for the Preparation of Highly Water-Soluble Derivatives, file e2913fda-6d5e-f688-e053-3705fe0a67e0
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235
|
Ru(ii)-Peptide bioconjugates with the cppH linker (cppH = 2-(2'-pyridyl)pyrimidine-4-carboxylic acid): synthesis, structural characterization, and different stereochemical features between organic and aqueous solvents, file e2913fdc-6268-f688-e053-3705fe0a67e0
|
214
|
The Insertion of Ruthenium into Porphyrins Revisited and Improved: Proof of Concept Results with a Ruthenium(II) Monocarbonyl Compound, and the Spectacular Effect of Propionic Acid, file e2913fdc-c498-f688-e053-3705fe0a67e0
|
190
|
NAMI-A and KP1019/1339, Two Iconic Ruthenium Anticancer Drug Candidates Face-to-Face: A Case Story in Medicinal Inorganic Chemistry, file e2913fdc-960b-f688-e053-3705fe0a67e0
|
146
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Phase I/II study with ruthenium compound NAMI-A and gemcitabine in patients with non-small cell lung cancer after first line therapy, file e2913fde-aba5-f688-e053-3705fe0a67e0
|
132
|
Metal Anticancer Complexes - Activity, Mechanism of Action, Future Perspectives, file e2913fdb-358f-f688-e053-3705fe0a67e0
|
126
|
Sistemi periodici: una proposta didattica interdisciplinare tra chimica e letteratura, file e2913fde-7a5e-f688-e053-3705fe0a67e0
|
105
|
Water-soluble Ru(II)- and Ru(III)-halide-PTA complexes (PTA=1,3,5-triaza-7-phosphaadamantane): Chemical and biological properties, file e2913fda-6712-f688-e053-3705fe0a67e0
|
84
|
New Insight into a Deceptively Simple Reaction: The Coordination of bpy to RuII-Carbonyl Precursors - The Central Role of thefac-[Ru(bpy)Cl(CO)3]+Intermediate and theChloride Rebound Mechanism, file e2913fdb-1064-f688-e053-3705fe0a67e0
|
61
|
Rare Example of Stereoisomeric 2 + 2 Metallacycles of Porphyrins Featuring Chiral-at-Metal Octahedral Ruthenium Corners, file e2913fdc-af97-f688-e053-3705fe0a67e0
|
60
|
Phototoxic Activity and DNA Interactions of Water-Soluble Porphyrins and Their Rhenium(I) Conjugates, file e2913fde-cb4f-f688-e053-3705fe0a67e0
|
53
|
Pd-Catalyzed CO/Vinyl Arene Copolymerization: when the Stereochemistry is Controlled by the Comonomer, file e2913fdd-476c-f688-e053-3705fe0a67e0
|
51
|
cis-Locked Ru(II)-DMSO Precursors for the Microwave-Assisted Synthesis of Bis-Heteroleptic Polypyridyl Compounds, file e2913fde-76f6-f688-e053-3705fe0a67e0
|
49
|
(15)N NMR spectroscopy unambiguously establishes the coordination mode of the diimine linker 2-(2'-pyridyl)pyrimidine-4-carboxylic acid (cppH) in Ru(II) complexes, file e2913fd9-a6ee-f688-e053-3705fe0a67e0
|
43
|
Orthogonal Coordination Chemistry of PTA toward Ru(II) and Zn(II) (PTA = 1,3,5-Triaza-7-phosphaadamantane) for the Construction of 1D and 2D Metal-Mediated Porphyrin Networks, file e2913fde-5682-f688-e053-3705fe0a67e0
|
39
|
A Maltol-Containing Ruthenium Polypyridyl Complex as a Potential Anticancer Agent, file e2913fdd-45ed-f688-e053-3705fe0a67e0
|
31
|
Photolabile Ru Model Complexes with Chelating Diimine Ligands for Light-Triggered Drug Release, file e2913fde-f11a-f688-e053-3705fe0a67e0
|
25
|
New Insight into a Deceptively Simple Reaction: The Coordination of bpy to RuII-Carbonyl Precursors - The Central Role of thefac-[Ru(bpy)Cl(CO)3]+Intermediate and theChloride Rebound Mechanism, file e2913fd9-ccaa-f688-e053-3705fe0a67e0
|
23
|
A Flexible Synthetic Strategy for the Preparation of Heteroleptic Metallacycles of Porphyrins, file e2913fde-1f14-f688-e053-3705fe0a67e0
|
23
|
Investigating the reactivity of neutral water-soluble Ru(ii)–PTA carbonyls towards the model imine ligands pyridine and 2,2′-bipyridine, file e2913fdd-9a44-f688-e053-3705fe0a67e0
|
22
|
Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure-Activity Relationship Study Shows the Importance of the Charge, file 15a78519-ac89-452f-b856-86143ec9949f
|
21
|
Pd-Catalyzed CO/Vinyl Arene Copolymerization: when the Stereochemistry is Controlled by the Comonomer, file e2913fdd-a75f-f688-e053-3705fe0a67e0
|
21
|
The NAMI A - human ferritin system: a biophysical characterization, file e2913fdf-13f8-f688-e053-3705fe0a67e0
|
18
|
Trinuclear metallacycles: metallatriangles and much more, file e2913fd9-0193-f688-e053-3705fe0a67e0
|
10
|
(15)N NMR spectroscopy unambiguously establishes the coordination mode of the diimine linker 2-(2'-pyridyl)pyrimidine-4-carboxylic acid (cppH) in Ru(II) complexes, file e2913fd9-957c-f688-e053-3705fe0a67e0
|
8
|
Modulating the Shape of Short Metal-Mediated Heteroleptic Tapes of Porphyrins, file 51f8723d-278a-4eba-889f-338ca98d1d55
|
7
|
Ruthenium(II) 1,4,7-trithiacyclononane complexes of curcumin and bisdemethoxycurcumin: Synthesis, characterization, and biological activity, file e2913fdf-5f8c-f688-e053-3705fe0a67e0
|
7
|
Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure-Activity Relationship Study Shows the Importance of the Charge, file dcec0f15-4943-4f18-86e6-36c36b30884f
|
6
|
Ruthenium antimetastatic agents, file e2913fd8-f8fb-f688-e053-3705fe0a67e0
|
5
|
Water-soluble Ru(II)- and Ru(III)-halide-PTA complexes (PTA=1,3,5-triaza-7-phosphaadamantane): Chemical and biological properties, file e2913fda-670d-f688-e053-3705fe0a67e0
|
5
|
Palladium complexes with simple iminopyridines as catalysts for polyketone synthesis, file e2913fda-93a2-f688-e053-3705fe0a67e0
|
5
|
Water-Soluble Ruthenium(II) Carbonyls with 1,3,5-Triaza-7-phosphoadamantane, file e2913fdc-2ec8-f688-e053-3705fe0a67e0
|
5
|
Ruthenium(II) 1,4,7-trithiacyclononane complexes of curcumin and bisdemethoxycurcumin: Synthesis, characterization, and biological activity, file e2913fdd-f847-f688-e053-3705fe0a67e0
|
5
|
The NAMI A - human ferritin system: a biophysical characterization, file e2913fdf-13f7-f688-e053-3705fe0a67e0
|
5
|
Photolabile Ru Model Complexes with Chelating Diimine Ligands for Light-Triggered Drug Release, file e2913fdc-1540-f688-e053-3705fe0a67e0
|
4
|
The NAMI A - human ferritin system: a biophysical characterization, file e2913fdc-4df2-f688-e053-3705fe0a67e0
|
4
|
Modulating the Shape of Short Metal-Mediated Heteroleptic Tapes of Porphyrins, file ffd3c6e0-3c39-46d1-b9fa-4fea951ab24e
|
4
|
Palladium complexes with simple iminopyridines as catalysts for polyketone synthesis, file e2913fda-93a3-f688-e053-3705fe0a67e0
|
3
|
Phase I/II study with ruthenium compound NAMI-A and gemcitabine in patients with non-small cell lung cancer after first line therapy, file e2913fdb-3188-f688-e053-3705fe0a67e0
|
3
|
Half-sandwich RuIIsingle bond[9]aneS3 complexes structurally similar to antitumor-active organometallic piano-stool compounds: Preparation, structural characterization and in vitro cytotoxic activity, file e2913fdb-b4d5-f688-e053-3705fe0a67e0
|
3
|
New half sandwich-type Ru(II) coordination compounds characterized by the fac-Ru(dmso-S)3 fragment: influence of the face-capping group on the chemical behavior and in vitro anticancer activity., file e2913fd9-cc75-f688-e053-3705fe0a67e0
|
2
|
NAMI-A is highly cytotoxic toward leukaemia cell lines: evidence of inhibition of KCa 3.1 channels, file e2913fd9-d4ae-f688-e053-3705fe0a67e0
|
2
|
Photolabile Ru Model Complexes with Chelating Diimine Ligands for Light-Triggered Drug Release, file e2913fdc-116f-f688-e053-3705fe0a67e0
|
2
|
The NAMI A - human ferritin system: a biophysical characterization, file e2913fdc-4127-f688-e053-3705fe0a67e0
|
2
|
Models of molecular photocatalysts for water oxidation: Strategies for conjugating the Ru(bda) fragment (bda = 2,2′-bipyridine-6,6′-dicarboxylate) to porphyrin photosensitizers, file e2913fdd-eb87-f688-e053-3705fe0a67e0
|
2
|
Phototoxic Activity and DNA Interactions of Water-Soluble Porphyrins and Their Rhenium(I) Conjugates, file e2913fde-302b-f688-e053-3705fe0a67e0
|
2
|
Photolabile Ru Model Complexes with Chelating Diimine Ligands for Light-Triggered Drug Release, file e2913fde-f11b-f688-e053-3705fe0a67e0
|
2
|
Synthesis and Reactivity of Ru-, Os-, Rh-, and Ir-halide-sulfoxide Complexes., file e2913fd8-f8fc-f688-e053-3705fe0a67e0
|
1
|
Replacement of Chlorides with Dicarboxylate Ligands in Anticancer Active Ru(II)-DMSO Compounds: A New Strategy That Might Lead to Improved Activity, file e2913fd8-fc22-f688-e053-3705fe0a67e0
|
1
|
Chimica Inorganica, seconda edizione italiana condotta sulla quinta edizione inglese, file e2913fd9-0c4a-f688-e053-3705fe0a67e0
|
1
|
New Water-Soluble Ruthenium(II) Terpyridine Complexes for Anticancer Activity: Synthesis, Characterization, Activation Kinetics, and Interaction with Guanine Derivatives, file e2913fd9-cb8f-f688-e053-3705fe0a67e0
|
1
|
Modular self-assembled multiporphyrin cages with tunable shape, file e2913fd9-cc01-f688-e053-3705fe0a67e0
|
1
|
An irresolute linker: separation, and structural and spectroscopic characterization of the two linkage isomers of a Ru(ii)-(2-(2′-pyridyl)pyrimidine-4-carboxylic acid) complex, file e2913fd9-ce30-f688-e053-3705fe0a67e0
|
1
|
New half sandwich Ru(II) coordination compounds for anticancer activity, file e2913fd9-cf8b-f688-e053-3705fe0a67e0
|
1
|
Novel water-soluble 99mTc(I)/Re(I)-porphyrin conjugates as potential multimodal agents for molecular imaging, file e2913fd9-d22f-f688-e053-3705fe0a67e0
|
1
|
1-(2-Picolyl)-substituted 1,2,3-triazole as novel chelating ligand for thepreparation of ruthenium complexes with potential anticancer activity, file e2913fd9-d266-f688-e053-3705fe0a67e0
|
1
|
New Uses for Old Drugs: Attempts to Convert Quinolone Antibacterials into Potential Anticancer Agents Containing Ruthenium, file e2913fd9-d4e3-f688-e053-3705fe0a67e0
|
1
|
Metal Anticancer Complexes - Activity, Mechanism of Action, Future Perspectives, file e2913fdb-30ae-f688-e053-3705fe0a67e0
|
1
|
Thirty Years of the Drug Candidate NAMI-A and the Myths in the Field of Ruthenium Anticancer Compounds: A Personal Perspective, file e2913fdb-3481-f688-e053-3705fe0a67e0
|
1
|
The Deceptively Similar Ruthenium(III) Drug Candidates KP1019 and NAMI-A Have Different Actions. What Did We Learn in the Past 30 Years?, file e2913fdb-c759-f688-e053-3705fe0a67e0
|
1
|
Water-Soluble Ruthenium(II) Carbonyls with 1,3,5-Triaza-7-phosphoadamantane, file e2913fdc-2fed-f688-e053-3705fe0a67e0
|
1
|
Orthogonal Coordination Chemistry of PTA toward Ru(II) and Zn(II) (PTA = 1,3,5-Triaza-7-phosphaadamantane) for the Construction of 1D and 2D Metal-Mediated Porphyrin Networks, file e2913fdd-a062-f688-e053-3705fe0a67e0
|
1
|
Stereoisomeric Control in [RuCl2(PTA)2(2L)] Complexes (2L=2py or bpy): From Theoretical Calculations to a 2+2 Metallacycle of Pyridylporphyrins, file e2913fdd-d6b6-f688-e053-3705fe0a67e0
|
1
|
[Gd(HB‐DO3A)]: Equilibrium, Dissociation Kinetic and Structural Differences in a Simple Homolog of [Gd(HP‐DO3A)] (Prohance®), file fc34a0c3-afdf-4e37-8c93-d5074766415b
|
1
|
Totale |
2.550 |