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Keyword [excited-state intramolecular proton transfer (ESIPT)]
Result: 1 - 20 | Page: 1 of 1
1. Porphyrin Appended With Ionophores: Design And Synthesis Of New Cation-Sensitive Fluorescent Cation Probes
2. Synthesis And Properties Of 2-(2'-Hydroxyphenyl) Benzothiozole Derivatives
3. A Theoretical Study On Photoinduced Excited State Intramolecular Proton Transfer Of Schiff Base Derivatives With Extended Conjugated Chromophores
4. Synthesis And Spectral Properties Investigation Of Schiff Base Dyes With The Function Of The Excited State Intramolecular Proton Transfer(ESIPT)
5. Synthesis, Structures, And Properties Of Amine Substituted-Benzothiazole Compounds
6. The Structure-property Relationships Of 1,3-Diaryl-β-Diketones And Their Derivatives
7. Study Of Excited-state Proton Transfer In2-naphthol Schiff Base Derivatives
8. Synthesis And Properties Of Benzothiazole Fluorophore-Based Probes For H2S And HSO3-
9. The Structure And Property Of(2-hydroxyphenyl) Propenone And Their Dirivatives
10. Theoretical Investigation On Properties Of Several Fluorescent Probes For Cyanide
11. Synthesis And Application Of Bisbenzimidazole Derivative PMOs
12. Designing Fluorescent Probe For Detecting Hydrogen Peroxide Based On Excited State Intramolecular Proton Transfer Mechanism
13. Excited state intramolecular proton transfer (ESIPT) to aromatic carbon
14. Synthesis And Properties Of Fluorescence Sensors Based On ESIPT Diarylethene Compounds
15. ESIPT-based Fluorescent Dyes For Dynamic Lipid Droplet
16. Polymer Mechanochromism: From Covalent Spirocyclic Chromophore To Non-covalent Excited State Intramolecular Proton Transfer(ESIPT) Chromophore
17. Construction Of Novel Fluorescent Probes For F-,ClO- And HSO3- And Their Analytical Application
18. Theoretical Study On The ESIPT Mechanisms Of Several Thiazole-based Compounds And The Effects Of Structural Modification On Proton Transfer
19. The Mechanistic Study On 2-(2-Hydroxyphenyl)-Benoxazole Derivatives Mediated By Solvents And Substitutes
20. Theoretical Study On Luminescence Properties Of Novel Thermal Activated Delayed Fluorescence Molecules
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