Add to ORKGORMOCER®*s (inorganic-organic hybrid polymers) with low Si-OH content were synthesized by a new sol-gel route. Optimization of the sol-gel process parameters (catalyst, temperature etc.) was performed in order to achieve reproducible low cost materials which are photopatternable even in higher layer thicknesses up to 150 m within one step without cracking or delamination. The materials combine low losses in the NIR region (0.2 dB/cm at 1310 nm and 0.5 dB/cm at 1550 nm without fluorination!) with low dielectric constants (3.3 at 10 kHz). Beside the dielectric and optical properties the materials have a variety of additional advantages for interconnection technology: good wetting and adhesion on various substrates (e.g. glass, silicon and sev...
The synthesis of ORMOCER®*s (inorganic-organic polymers) for optical applications is studied in deta...
Organic-inorganic hybrids have been prepared with tailorable and enhanced properties which are unach...
During the last two decades, nano-materials have been intensively investigated due to their wide ran...
New inorganic-organic hybrid polymers, (ORMOCER's) for integrated optical and optoelectronic devices...
Future info- and datacom applications will be based on optical and radio-frequency signal processing...
Inorganic-organic hybrid polymers (ORMOCER(R)s) have been synthesized by sol-gel processing. The mat...
Photosensitive organic-inorganic hybrid polymers were synthesised for integrated optical and optoele...
For all optical path networks there is a need for optical crossconnect systems and switching matrice...
Inorganic-organic copolymers (ORMOCERs = ORganically MOdified CERamics), synthesized by sol-gel proc...
Integrated passive and active optical devices are the key components in current and future data tran...
Solution processing of highly performing photonic crystals has been a towering ambition for making t...
Enhanced integration, faster signal transmission and reduced size of mounting devices in components ...
Enhanced integration, faster signal transmission and reduced size of mounting devices in components ...
A technological platform based on low-temperature hybrid sol-gel method for fabrication of optical w...
Integrated passive and active optical devices are the key components in current and future data tran...
The synthesis of ORMOCER®*s (inorganic-organic polymers) for optical applications is studied in deta...
Organic-inorganic hybrids have been prepared with tailorable and enhanced properties which are unach...
During the last two decades, nano-materials have been intensively investigated due to their wide ran...
New inorganic-organic hybrid polymers, (ORMOCER's) for integrated optical and optoelectronic devices...
Future info- and datacom applications will be based on optical and radio-frequency signal processing...
Inorganic-organic hybrid polymers (ORMOCER(R)s) have been synthesized by sol-gel processing. The mat...
Photosensitive organic-inorganic hybrid polymers were synthesised for integrated optical and optoele...
For all optical path networks there is a need for optical crossconnect systems and switching matrice...
Inorganic-organic copolymers (ORMOCERs = ORganically MOdified CERamics), synthesized by sol-gel proc...
Integrated passive and active optical devices are the key components in current and future data tran...
Solution processing of highly performing photonic crystals has been a towering ambition for making t...
Enhanced integration, faster signal transmission and reduced size of mounting devices in components ...
Enhanced integration, faster signal transmission and reduced size of mounting devices in components ...
A technological platform based on low-temperature hybrid sol-gel method for fabrication of optical w...
Integrated passive and active optical devices are the key components in current and future data tran...
The synthesis of ORMOCER®*s (inorganic-organic polymers) for optical applications is studied in deta...
Organic-inorganic hybrids have been prepared with tailorable and enhanced properties which are unach...
During the last two decades, nano-materials have been intensively investigated due to their wide ran...