Font Size: a A A
Keyword [light-harvesting]
Result: 21 - 40 | Page: 2 of 5
21. The Physical Properties,Mechanical Properties And Applications Of Self-Assembly Peptide Materials
22. The Light-harvesting Enhancement Of Photocatalyst Through The Photon Localization Of Photonic Crystals
23. Theoretical Design Of Novel Diimine Cu(?)-based Dye Sensitizers
24. Construction Of Supramolecular Assemblies Based On Pillar[n]arenes And Their Functional Applications For Drug Delivery And Artificial Light-harvesting Systems
25. The Preparation And Study Of Broadband Light-Harvesting Organic Triplet Photosensitizers
26. Preparation Of Chloroplast/SiO 2 Composites And Study Of Light Trapping Properties
27. Preparation Of Functional Two-dimensional Polymers Based On Covalent Self-assembly
28. Design And Construction Of Two-Dimensional Self-Assembled Protein Bionanomaterials
29. Construction Of Functional Supramolecular Systems Based On Pillar[n]arenes And BODIPY And Their Applications
30. Photocatalytic Water Splitting Of Ta-based Photocatalysts With Wide Visible-Light-Response
31. Synthesis And Photocatalytic Properties Of Biomorphic Photocatalysts With Hierarchical Structures
32. Self-assembly Of Light-responsive Hyperbranched Polymer Vesicles
33. Supramolecular Networks Constructed By AIEE-active Pillar[5]arene-based Polymeric Hosts:AIEE/Size Tunable Nanospheres And Efficient Light-Harvesting Materials
34. Self-assembly, Molecular Recognition Of Macrocyclic Amphiphiles And Their Functionalization
35. Study Of Preparation And Photo-/electro-Catalytic Properties Of Advanced Semiconductor Materials
36. Construction Of Artificial Light-Harvesting System Based On Protein Self-Assembly
37. Studies On Construction And Functionalization Of Ultrathin Polymer Nanocapsules
38. Construction Of Protein Biomimetic Materials Based On Interfacial Self-Assembly Strategy
39. Metal-Organic Layers For Single-Site Catalysis And Light Harvesting
40. Preparation Of Hollow Mesoporous CdS Hybrid Photocatalysts And Study Of Their Photocatalytic Performance Under Visible Light
  <<First  <Prev  Next>  Last>>  Jump to