Kong et al., 2015 - Google Patents
Deposition of quantum dots in a capillary tubeKong et al., 2015
View PDF- Document ID
- 2238010587854832713
- Author
- Kong Y
- Boulogne F
- Kim H
- Nunes J
- Feng J
- Stone H
- Publication year
- Publication venue
- Langmuir
External Links
Snippet
The ability to assemble nanomaterials, such as quantum dots, enables the creation of functional devices that present unique optical and electronic properties. For instance, light- emitting diodes with exceptional color purity can be printed via the evaporative-driven …
- 239000002096 quantum dot 0 title abstract description 127
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Abkarian et al. | Colloidal crystallization and banding in a cylindrical geometry | |
| Lin et al. | Marangoni effect-driven transfer and compression at three-phase interfaces for highly reproducible nanoparticle monolayers | |
| Hanske et al. | Solvent-assisted self-assembly of gold nanorods into hierarchically organized plasmonic mesostructures | |
| Kong et al. | Deposition of quantum dots in a capillary tube | |
| Ko et al. | Rapid self-assembly of monodisperse colloidal spheres in an ink-jet printed droplet | |
| Lotito et al. | Self-assembly of single-sized and binary colloidal particles at air/water interface by surface confinement and water discharge | |
| Miller et al. | Ensemble brightening and enhanced quantum yield in size-purified silicon nanocrystals | |
| Andres et al. | Inkjet deposition of layer-by-layer assembled films | |
| Huang et al. | 3D silver nanoparticles decorated zinc oxide/silicon heterostructured nanomace arrays as high-performance surface-enhanced Raman scattering substrates | |
| Das et al. | Suppression of the coffee-ring effect and evaporation-driven disorder to order transition in colloidal droplets | |
| Gargiulo et al. | Accuracy and mechanistic details of optical printing of single Au and Ag nanoparticles | |
| Shi et al. | A general approach to free-standing nanoassemblies via acoustic levitation self-assembly | |
| Davis et al. | Creating controlled thickness gradients in polymer thin films via flowcoating | |
| Ni et al. | Programmable assembly of hybrid nanoclusters | |
| Lu et al. | Shape-controlled synthesis of hybrid nanomaterials via three-dimensional hydrodynamic focusing | |
| Li et al. | Optothermally assembled nanostructures | |
| Jambhulkar et al. | Aligned Ti3C2T x MXene for 3D micropatterning via additive manufacturing | |
| Masuda et al. | Self-assembly patterning of colloidal crystals constructed from opal structure or NaCl structure | |
| Sun et al. | Three-dimensional colloidal crystal-assisted lithography for two-dimensional patterned arrays | |
| Zhang et al. | Shape-controlled hierarchical flowerlike Au nanostructure microarrays by electrochemical growth for surface-enhanced Raman spectroscopy application | |
| Cicala et al. | Self-assembled pillar-like structures in nanodiamond layers by pulsed spray technique | |
| Xue et al. | Transfer printing of metal nanoparticles with controllable dimensions, placement, and reproducible surface-enhanced Raman scattering effects | |
| Lee et al. | Template dissolution interfacial patterning of single colloids for nanoelectrochemistry and nanosensing | |
| Kumnorkaew et al. | Effect of nanoparticle concentration on the convective deposition of binary suspensions | |
| Ahamad et al. | Using phospholipids to control interparticle distance in SERS-active substrates |