CAS Key Laboratory of Nanosystem and Hierarchical Fabrication (KLNHF) was found in September 2014. The research of KLNHF is mainly focused on controllable preparation of hierarchical nanostructures, functionality manipulation, as well as fabrication, integration and application of nanostructures in nano-/micro-systems. Based on disciplinary crossing of materials, devices and engineering, KLNHF aims at realization of cross一scale processing of nanomaterials preparation, nano-/micro-devices integration and macrosystem functionality.
Research field
- Design and fabrication of nanosystem building blocks. The research mainly includes molecules and molecular assemblies, nanostructures and nanomaterials, and interactions between building blocks
- Integration and hierarchical manufacture. The research mainly includes up-to-bottom device fabrication and integration, bottom-to-up hierarchical manufacture, and cross-scale property transfer and synergy
- Service capability and failure mechanism. The research mainly includes in-situ characterization techniques about structure and performance of nanosystems during application processes, statistic analysis and quality control over up-scale manufacture of nanomaterials, and failure mechanism of nanomaterials
CAS Key Laboratory of Nanosystem and Hierarchical Fabrication (KLNHF) was found in September 2014. The research of KLNHF is mainly focused on controllable preparation of hierarchical nanostructures, functionality manipulation, as well as fabrication, integration and application of nanostructures in nano-/micro-systems. Based on disciplinary crossing of materials, devices and engineering, KLNHF aims at realization of cross一scale processing of nanomaterials preparation, nano-/micro-devices integration and macrosystem functionality.
Research field
- Design and fabrication of nanosystem building blocks. The research mainly includes molecules and molecular assemblies, nanostructures and nanomaterials, and interactions between building blocks
- Integration and hierarchical manufacture. The research mainly includes up-to-bottom device fabrication and integration, bottom-to-up hierarchical manufacture, and cross-scale property transfer and synergy
- Service capability and failure mechanism. The research mainly includes in-situ characterization techniques about structure and performance of nanosystems during application processes, statistic analysis and quality control over up-scale manufacture of nanomaterials, and failure mechanism of nanomaterials
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