| Nome |
# |
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Gold nanoparticles protected by fluorinated ligands: Syntheses, properties and applications, file e2913fd9-ab49-f688-e053-3705fe0a67e0
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540
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Functionalized Gold Nanoparticles as Contrast Agents for Proton and Dual Proton/Fluorine MRI, file e2913fdc-9ad1-f688-e053-3705fe0a67e0
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265
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Helical peptide-polyamine and -polyether conjugates as synthetic ionophores, file e2913fd9-c1c8-f688-e053-3705fe0a67e0
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247
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Hydrolytic metallo-nanozymes: From micelles and vesicles to gold nanoparticles, file e2913fda-98c0-f688-e053-3705fe0a67e0
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131
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Mixed Fluorinated/Hydrogenated Self-Assembled Monolayer-Protected Gold Nanoparticles: In Silico and In Vitro Behavior, file e2913fdf-0418-f688-e053-3705fe0a67e0
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91
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Fluorinated and Charged Hydrogenated Alkanethiolates Grafted on Gold: Expanding the Diversity of Mixed-Monolayer Nanoparticles for Biological Applications, file e2913fda-e37a-f688-e053-3705fe0a67e0
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61
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Highly Efficient Darzens Reactions Mediated by Phosphazene Bases under Mild Conditions, file 48c910a5-f9e5-4448-934d-949dec6fc892
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54
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Routes to the preparation of mixed monolayers of fluorinated and hydrogenated alkanethiolates grafted on the surface of gold nanoparticles, file e2913fda-ac53-f688-e053-3705fe0a67e0
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46
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Gold nanoparticles with patterned surface monolayers for nanomedicine: current perspectives, file e2913fdb-9c77-f688-e053-3705fe0a67e0
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45
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Patchy and Janus Nanoparticles by Self-Organization of Mixtures of Fluorinated and Hydrogenated Alkanethiolates on the Surface of a Gold Core, file e2913fdd-e223-f688-e053-3705fe0a67e0
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44
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Label-Free, Rapid and Facile Gold-Nanoparticles-Based Assay as a Potential Spectroscopic Tool for Trastuzumab Quantification, file e2913fde-937c-f688-e053-3705fe0a67e0
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44
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Effects of gold nanoparticles, protected by self-assembling mixtures of ligands, on eukaryotic cells and model membranes, file e2913fdb-14d4-f688-e053-3705fe0a67e0
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42
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Gold nanoparticles as drug carriers: A contribution to the quest for basic principles for monolayer design, file e2913fde-b077-f688-e053-3705fe0a67e0
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29
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Biocatalysis of D,L-peptide nanofibrillar hydrogel, file e2913fdd-6dbd-f688-e053-3705fe0a67e0
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28
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Wet-Chemical Synthesis of Porous Multifaceted Platinum Nanoparticles for Oxygen Reduction and Methanol Oxidation Reactions, file e2913fdf-7992-f688-e053-3705fe0a67e0
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23
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Self-Assembly of Unprotected Dipeptides into Hydrogels: Water-Channels Make the Difference, file 14389399-77bf-4859-a540-065b86cd52dd
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16
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Differential reactivity of the inner and outer positions of Au25(SCH2CH2Ph)18 dimeric staples under place exchange conditions, file e2913fde-b078-f688-e053-3705fe0a67e0
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15
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Engineering Functional Nanomaterials Through the Amino Group, file d2ae1363-7463-4418-a592-c06154b68780
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14
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Toward Fractioning of Isomers through Binding-Induced Acceleration of Azobenzene Switching, file e2913fdf-412b-f688-e053-3705fe0a67e0
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13
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Spotting local environments in self-assembled monolayer-protected gold nanoparticles, file 300eb67a-8224-4f04-ac95-a9f75ee062b6
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11
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Mixed Fluorinated/Hydrogenated Self-Assembled Monolayer-Protected Gold Nanoparticles: In Silico and In Vitro Behavior, file e2913fdc-84bc-f688-e053-3705fe0a67e0
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11
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Spotting local environments in self-assembled monolayer-protected gold nanoparticles, file 9bc88d36-751d-4ac9-ab79-54cbc40aa3ee
|
10
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Wet-Chemical Synthesis of Porous Multifaceted Platinum Nanoparticles for Oxygen Reduction and Methanol Oxidation Reactions, file 9785f6d2-5096-48d1-9677-3cbe09af2bf7
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6
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Toward Fractioning of Isomers through Binding-Induced Acceleration of Azobenzene Switching, file e2913fdb-c914-f688-e053-3705fe0a67e0
|
6
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|
Engineering Functional Nanomaterials Through the Amino Group, file 776d0d09-37bf-4d66-b348-991c9ce381f4
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5
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Differential reactivity of the inner and outer positions of Au25(SCH2CH2Ph)18 dimeric staples under place exchange conditions, file e2913fd9-4225-f688-e053-3705fe0a67e0
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5
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Toward Fractioning of Isomers through Binding-Induced Acceleration of Azobenzene Switching, file e2913fdb-d0dd-f688-e053-3705fe0a67e0
|
5
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Peptide Stereochemistry Effects from pKa-Shift to Gold Nanoparticle Templating in a Supramolecular Hydrogel, file 1a274f69-1df5-4eb6-a2ba-3153758b6559
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4
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Gold nanoparticles as drug carriers: A contribution to the quest for basic principles for monolayer design, file e2913fd9-38c6-f688-e053-3705fe0a67e0
|
4
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|
Helical peptide-polyamine and -polyether conjugates as synthetic ionophores, file e2913fd9-c1c9-f688-e053-3705fe0a67e0
|
4
|
|
Patchy and Janus Nanoparticles by Self-Organization of Mixtures of Fluorinated and Hydrogenated Alkanethiolates on the Surface of a Gold Core, file e2913fda-a76a-f688-e053-3705fe0a67e0
|
4
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Biological Activity of Trans-Membrane Anion Carriers, file e2913fdc-4327-f688-e053-3705fe0a67e0
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4
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Toward Fractioning of Isomers through Binding-Induced Acceleration of Azobenzene Switching, file e2913fdf-412c-f688-e053-3705fe0a67e0
|
4
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Physico-Chemical Characteristics of Gold Nanoparticles, file e2913fd9-3407-f688-e053-3705fe0a67e0
|
3
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|
Patchy and Janus Nanoparticles by Self-Organization of Mixtures of Fluorinated and Hydrogenated Alkanethiolates on the Surface of a Gold Core, file e2913fda-a76c-f688-e053-3705fe0a67e0
|
3
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|
null, file 527fec6b-c8da-49a8-8ac6-d29e08b93b99
|
2
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|
null, file e2913fd9-1d6a-f688-e053-3705fe0a67e0
|
2
|
|
Gold nanoparticles protected by fluorinated ligands: Syntheses, properties and applications, file e2913fd9-b32b-f688-e053-3705fe0a67e0
|
2
|
|
Routes to the preparation of mixed monolayers of fluorinated and hydrogenated alkanethiolates grafted on the surface of gold nanoparticles, file e2913fda-9fe6-f688-e053-3705fe0a67e0
|
2
|
|
Fluorinated and Charged Hydrogenated Alkanethiolates Grafted on Gold: Expanding the Diversity of Mixed-Monolayer Nanoparticles for Biological Applications, file e2913fda-e053-f688-e053-3705fe0a67e0
|
2
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|
Computational and experimental investigation on the morphology and biological activity of gold nanoparticles protected by self-assembling mixtures of ligands, file e2913fdb-37e8-f688-e053-3705fe0a67e0
|
2
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Multivalent, mixed self-assembled monolayer protected gold nanoparticles: from design to biological application, file e2913fdc-4d81-f688-e053-3705fe0a67e0
|
2
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|
DON'T JUDGE A BOOK BY ITS COVER: JANUS AND STRIPED SAM-PROTECTED GOLD NANOPARTICLES AT THE NANO-BIO INTERFACE, file e2913fdc-8721-f688-e053-3705fe0a67e0
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2
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Gold nanoparticles protected by fluorinated ligands for 19F MRI, file e2913fd9-183a-f688-e053-3705fe0a67e0
|
1
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null, file e2913fd9-1b07-f688-e053-3705fe0a67e0
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1
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Complexes of aryl-substituted porphyrins and naphthalenediimide (NDI): investigations by synchrotron X-ray diffraction and NMR spectroscopy, file e2913fd9-1b08-f688-e053-3705fe0a67e0
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1
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null, file e2913fd9-1d69-f688-e053-3705fe0a67e0
|
1
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null, file e2913fd9-1dbe-f688-e053-3705fe0a67e0
|
1
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Increased antiprotease activity of the SERPINB3 polymorphic variant SCCA-PD, file e2913fd9-1dd3-f688-e053-3705fe0a67e0
|
1
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Synthesis and in vitro study of novel neuraminidase inhibitors against avian influenza virus, file e2913fd9-1dd4-f688-e053-3705fe0a67e0
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1
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CLEAR! ComputationaL and Experimental design Rules in tailoring the monolayer organization of fluorocarbon/hydrocarbon thiolates mixtures on gold nanoparticles., file e2913fdb-689e-f688-e053-3705fe0a67e0
|
1
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Self-sorting in mixed fluorinated/hydrogenated assemblies, file e2913fdb-b59d-f688-e053-3705fe0a67e0
|
1
|
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Gold nanoparticles protected by mixed hydrogenated/fluorinated monolayers: controlling and exploring the surface features, file e2913fdc-9503-f688-e053-3705fe0a67e0
|
1
|
|
Thiolate end-group regulates ligand arrangement, hydration and affinity for small compounds in monolayer-protected gold nanoparticles., file e2913fde-90e2-f688-e053-3705fe0a67e0
|
1
|
| Totale |
1.864 |