Nanoscale Directional Wetting
Researchers at Purdue University have developed a method for controlling ultrathin film structures using sitting phases of polymerizable phospholipids. Such phases are capable of providing nanoscopic directional wetting confinement near the molecular scale for ultrathin films under appropriate deposition conditions or, alternatively, of stabilizing spreading of slightly thicker nanoscopic films. The surface chemistry is compatible with scalable solution-processing methods including spray coating. This method uses monolayers with thicknesses less than 0.5 nm, minimizing electrical resistance in comparison with thicker monolayers. Because the headgroup chemistry is modular, it can be modified to control wetting of a variety of technologically relevant materials including classes of materials relevant to organic optoelectronics or nanoscale electronics.
Precise control of ultrathin film architectures Modifiable to control wetting of a variety of technologically relevant materials Compatible with scalable processing methods such as spray coating Sub-nm interlayer chemistry results in minimal electrical barrier
Materials and surface chemistry Organic optoelectronics or nanoscale electronics patterning
Shelley ClaridgeClaridge Research GroupPurdue Chemistry
United States
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