HN
Nozary, Homayoun
| Title | Published in | Access level | OA Policy | Year | Views | Downloads | |
|---|---|---|---|---|---|---|---|
| Ultrafast Energy Transfer in Orthogonal Heptamethine Cyanine–Naphthalimide Systems: A Pathway toward High-Energy Excitation | The journal of physical chemistry. A |  | 2026 | 3 | 0 | ||
| Molecular Fe(ii)–Ln(iii) dyads for luminescence reading of spin-state equilibria at the molecular level | Dalton transactions |  | 2024 | 107 | 69 | ||
| Preorganized Polyaromatic Soft Terdentate Hosts for the Capture of [Ln(β‐diketonate)3] Guests in Solution | Chemistry | | 2023 | 193 | 260 | ||
| Symmetry and Rigidity for Boosting Erbium-Based Molecular Light-Upconversion in Solution | Angewandte Chemie. International edition in English | | 2023 | 191 | 0 | ||
| Rational Loading of Linear Multi‐Site Receptors with Functional Lanthanide Containers: The Missing Link between Oligomers and Polymers | Small | | 2023 | 70 | 51 | ||
| Metal-Based Linear Light Upconversion Implemented in Molecular Complexes: Challenges and Perspectives | Accounts of chemical research | | 2022 | 411 | 380 | ||
| Molecular light-upconversion: we have had a problem! When excited state absorption (ESA) overcomes energy transfer upconversion (ETU) in Cr(iii)/Er(iii) complexes | Dalton Transactions | | 2021 | 363 | 92 | ||
| Ligand-Sensitized Near-Infrared to Visible Linear Light Upconversion in a Discrete Molecular Erbium Complex | Journal of the American Chemical Society | | 2021 | 284 | 517 | ||
| Bottom-Up Approach for the Rational Loading of Linear Oligomers and Polymers with Lanthanides | Inorganic chemistry | | 2021 | 286 | 412 | ||
| Neutral Heteroleptic Lanthanide Complexes for Unravelling Host–Guest Assemblies in Organic Solvents: The Law of Mass Action Revisited | Inorganic Chemistry | | 2020 | 498 | 459 | ||
| Erbium complexes as pioneers for implementing linear light-upconversion in molecules | Materials Horizons | | 2020 | 416 | 283 | ||
| Deciphering and quantifying linear light upconversion in molecular erbium complexes | Chemical Science | | 2019 | 567 | 310 | ||
| A Rational Approach to Metal Loading of Organic Multi-Site Polymers: Illusion or Reality? | Chemistry - A European Journal | | 2018 | 676 | 504 | ||
| Thermodynamic Programming of Erbium(III) Coordination Complexes for Dual Visible/Near-Infrared Luminescence | Chemistry - A European Journal | | 2018 | 651 | 662 | ||
| Room-Temperature Linear Light Upconversion in a Mononuclear Erbium Molecular Complex | Angewandte Chemie: International Edition | | 2018 | 742 | 679 | ||
| Controlling Lanthanide Exchange in Triple-Stranded Helicates: A Way to Optimize Molecular Light-Upconversion | Angewandte Chemie: International Edition | | 2017 | 526 | 1 | ||
| CrIII as an alternative to RuII in metallo-supramolecular chemistry | Dalton transactions | | 2017 | 610 | 6 | ||
| Taming Lanthanide-Centered Upconversion at the Molecular Level | Inorganic chemistry | | 2016 | 649 | 0 | ||
| Smaller than a nanoparticle with the design of discrete polynuclear molecular complexes displaying near-infrared to visible upconversion | Dalton transactions | | 2015 | 897 | 0 | ||
| Metal loading of lanthanidopolymers driven by positive cooperativity | Dalton transactions | | 2015 | 589 | 0 | ||
| Lanthanide Loading of Luminescent Multi-Tridentate Polymers under Thermodynamic Control | Inorganic chemistry | | 2014 | 691 | 3 | ||
| Lanthanide-to-Lanthanide Energy-Transfer Processes Operating in Discrete Polynuclear Complexes: Can Trivalent Europium Be Used as a Local Structural Probe? | Chemistry | | 2014 | 671 | 2 | ||
| Near-Infrared to Visible Light-Upconversion in Molecules: From Dream to Reality | Journal of physical chemistry. C | | 2013 | 870 | 4 | ||
| Lanthanide hexafluoroacetylacetonates vs. nitrates for the controlled loading of luminescent polynuclear single-stranded oligomers | Chemical science | | 2013 | 676 | 2 | ||
| Optimizing Millisecond Time Scale Near-Infrared Emission in Polynuclear Chrome(III)–Lanthanide(III) Complexes | Journal of the American Chemical Society | | 2012 | 788 | 2 | ||
| N-Heterocyclic Tridentate Aromatic Ligands Bound to [Ln(hexafluoroacetylacetonate)3] Units: Thermodynamic, Structural, and Luminescent Properties | Chemistry | | 2012 | 703 | 2 | ||
| Dimerization of Dendrimeric Lanthanide Complexes: Thermodynamic, Thermal, and Liquid-Crystalline Properties | Inorganic chemistry | | 2010 | 726 | 0 | ||
| Enthalpy/entropy compensation in the melting of thermotropic nitrogen-containing chelating ligands and their lanthanide complexes: successes and failures | European journal of inorganic chemistry | | 2010 | 576 | 0 | ||
| Rational tuning of melting entropies for designing luminescent lanthanide-containing thermotropic liquid crystals at room temperature | Chemistry | | 2007 | 674 | 0 | ||
| Introducing Bulky Functional Lanthanide Cores into Thermotropic Metallomesogens: A Bottom-Up Approach | Advanced functional materials | | 2006 | 584 | 0 | ||
| Structural, Thermodynamic, and Mesomorphic Consequences of Replacing Nitrates with Trifluoroacetate Counteranions in Ternary Lanthanide Complexes with Hexacatenar Tridentate Ligands | Inorganic Chemistry | | 2006 | 795 | 0 | ||
| Polarization Loops Observed in Liquid Crystal with a New Banana-Shaped Ligand | Ferroelectrics | | 2002 | 556 | 1 | ||
| Aromatic bent-core liquid crystals : an opportunity for introducing terdentate binding units into mesophases | Chemistry of materials | | 2002 | 783 | 0 | ||
| Extended Rodlike Polyaromatic Receptors with Bent Tridentate Units Complexed to Lanthanide Metal Ions | Inorganic chemistry | 2000 | 747 | 0 | |||
| Tridentate binding units as structural patterns for the design of nine-coordinate lanthanide building blocks with predetermined properties | Journal of Alloys and Compounds | | 2000 | 327 | 0 | ||
| Bent tridentate receptors in calamitic mesophases with predetermined photophysical properties : new luminescent lanthanide-containing materials | Journal of the American Chemical Society | 1998 | 686 | 0 |
