Add to ORKGThe market for transparent and conductive layers has grown remarkably during the past few years. The key drivers were consumer electronics and photovoltaics. Recent developments show a trend for products which are bendable or have complex 3D surfaces. Such applications need flexible and transparent electrodes. The state of the art materials cannot satisfy the flexibility requirement. Most promising candidates are fibrous conductive materials like nanotubes or nanowires and their hybrids. The main interest of Fraunhofer IPA is to develop processes for coating, patterning and printing of these nanomaterials
We outline the reasons why indium tin oxides is still not replaced in transparent electrodes althoug...
The production of high quality and cheap transparent electrodes is a fundamental step for a variety ...
High aspect-ratio ultra-long (> 70 ?m) and thin (< 50 nm) copper nanowires (Cu-NW) were synthesized ...
The market for transparent and conductive layers has grown remarkably during the past few years. The...
Since product life cycles of displays become shorter the electronic industry is seeking for the usag...
In recent years, extensive progress has been made in the development of primary and applied aspects ...
International audienceTransparent electrodes attract intense attention in many technological fields,...
This work shows a simple, single-stage, scalable method for the continuous production of high-qualit...
Conductive metal films are patterned into transparent metal nanowire networks by using electrospun f...
We report about the production of transparent electrodes based on silver nanowires and on hybrid fil...
With the development of new generations of optoelectronic devices that combine high performance and ...
Optoelectronic devices, such as displays, are now omnipresent in our daily life. A crucial component...
AbstractNovel types of Transparent Conductive Materials (TCMs) based on metal nanostructures are dis...
Todays solar cells are fabricated using metal oxide based transparent conductive coatings (TCC) or m...
Recently, electrically conductive, flexible, and transparent nanocomposite thin films consisting of ...
We outline the reasons why indium tin oxides is still not replaced in transparent electrodes althoug...
The production of high quality and cheap transparent electrodes is a fundamental step for a variety ...
High aspect-ratio ultra-long (> 70 ?m) and thin (< 50 nm) copper nanowires (Cu-NW) were synthesized ...
The market for transparent and conductive layers has grown remarkably during the past few years. The...
Since product life cycles of displays become shorter the electronic industry is seeking for the usag...
In recent years, extensive progress has been made in the development of primary and applied aspects ...
International audienceTransparent electrodes attract intense attention in many technological fields,...
This work shows a simple, single-stage, scalable method for the continuous production of high-qualit...
Conductive metal films are patterned into transparent metal nanowire networks by using electrospun f...
We report about the production of transparent electrodes based on silver nanowires and on hybrid fil...
With the development of new generations of optoelectronic devices that combine high performance and ...
Optoelectronic devices, such as displays, are now omnipresent in our daily life. A crucial component...
AbstractNovel types of Transparent Conductive Materials (TCMs) based on metal nanostructures are dis...
Todays solar cells are fabricated using metal oxide based transparent conductive coatings (TCC) or m...
Recently, electrically conductive, flexible, and transparent nanocomposite thin films consisting of ...
We outline the reasons why indium tin oxides is still not replaced in transparent electrodes althoug...
The production of high quality and cheap transparent electrodes is a fundamental step for a variety ...
High aspect-ratio ultra-long (> 70 ?m) and thin (< 50 nm) copper nanowires (Cu-NW) were synthesized ...