Add to ORKGThe interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with trifluoroethylene (30%) [PVDF-TrFE] has been studied. The ratio of carbon 1s and aluminum 2p core level photoemission peak intensities changes little with increasing emission angle after deposition of 5 Å aluminum on the surface of PVDF-TrFE. This indicates that the distribution of aluminum atoms in the copolymer film is quite uniform in the near surface region and that the interface between PVDF-TrFE and aluminum is not abrupt. There is evidence for changes in photohole screening with aluminum doping within the polymer film
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The photodegradation mechanism due to synchrotron radiation exposure of crystalline poly[vinylidene ...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The chemical interaction between the simple metals, aluminum and sodium, and crystalline copolymer t...
The chemical interaction between the simple metals, aluminum and sodium, and crystalline copolymer t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
The photodegradation mechanism due to synchrotron radiation exposure of crystalline poly[vinylidene ...
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The photodegradation mechanism due to synchrotron radiation exposure of crystalline poly[vinylidene ...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The interface between aluminum and crystalline copolymer thin film of vinylidene fluoride (70%) with...
The chemical interaction between the simple metals, aluminum and sodium, and crystalline copolymer t...
The chemical interaction between the simple metals, aluminum and sodium, and crystalline copolymer t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
Two mutually exclusive mechanisms have been proposed to explain the improved electron injection by t...
The photodegradation mechanism due to synchrotron radiation exposure of crystalline poly[vinylidene ...
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The interfaces formed between polymers and metals as well as between two polymers, poly(vinylidene f...
The photodegradation mechanism due to synchrotron radiation exposure of crystalline poly[vinylidene ...