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Keyword [Receptors]
Result: 21 - 40 | Page: 2 of 10
21. Synthesis And ~(125)Ⅰ Labeling Of A Precursor For Imaging Nicotinic Acetylcholine Receptors
22. Studies On Synthesis, Characterization And Recognition Properties Of Novel Calixcrown Receptors Containing Ferrocene Unit
23. Studies On Synthesis, Characterization And Supramolecular Electrochemical Recognition Of Ferrocene-Based Multisite Receptors
24. The Research On The Synthesis Of Retinoyl Sugar And Isoprenylamine Derivatives
25. Synthesis Of Thiosemicarbazone Derivative Receptors And The Anion Recognition Properties
26. Studies On Synthesis, Characterization And Recognition Properties Of Calix[4]Arene Based Redox Active Receptors
27. Studies On Synthesis, Characterization And Supramolecular Recognition Of Novel Redox Active Thiacalix[4]arene Multisite Receptors
28. Design Of Thiourea Receptors For Anion Recognition
29. Synthesis Of Novel Tweezers Receptors And Their Anion Recognition Properties
30. Synthesis And Anion Recognition Properties Of Receptors Bearing Phenolic Hydroxy Groups
31. Synthesis Of Novel Anion Receptors And The Recognition Properties
32. Studies On Synthesis, Characterization And Properties Of Ferrocene And Anthraquinone Based Multisite Recognition Receptors
33. Studies On Synthesis, Characterization And Recognition Properties Of Ferrocene-Based Redox Active Thiacalix[4]Arene Receptors
34. Synthesis, Characterization And Recognition Properties Of Calix[4]arene-Based Optical And Redox Active Receptors
35. Studies On Synthesis, Characterization And Recognition Properties Of Ferrocene-Based Redox Active Calix[4]arene Multisite Receptors
36. Design And Synthesis Of Cu2+ Receptors For Recognition
37. Synthesis And Properties Of Calix[4]arene Based Receptors Containing Transition Metal Clusters
38. Synthesis, Characterization And Properties Of Several Optical And Redox Active Receptors
39. Studies On Synthesis And Properties Of Thiacalix[4]arene-Based Acyclic And Macrocyclic Crown Ether Receptors
40. Modulation By Cadmium Chloride Of ATP-activated Currents Mediated By Rat P2X4 Receptors Expressed In Xenopus Oocytes
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