Biomimetic dry adhesives
The technology relates to a biomimetic micro-/nano-structure sucker device and operation method. Combining with van der Waals force and partial vacuum suction, an incredible adhesion force (normal and shear direction) is generated without using sticky glues. The adhesive can be easily peeled off and repeatedly used without any adhesive residue.
KrF Laser cristallization of amorphous PZT thin films suitable for CMOS technology.
PZT target elaboration and XRD investigations thin films deposition at room temperatur using RF sputtering magnetron,on different substrats then, post annealing at 650Â°C in air and XRD, SEM and AFM laser cristallization on amorphous PZT thin films using KrF source of 248nm wavelength at diffrent energies
RECYCLAMINE: Performance Thermosets for Removable and Recyclable Composites and Adhesives
Connora Technologies has developed a revolutionary chemistry that allows thermoset plastics to be removable and recyclable for the first time. Our Recyclamines allow high value composites to be removable or recyclable from the start, using a simple, low energy recycling process.
Highly sensitive acid gas sensing dyes for protective work wear
Novel textile dyes having high sensitivity toward acid gases and chemicals of extremely low concentration (3 ppm level) and dyeable and printable on all kinds of textile fibers or organic materials.
Melodea NCC Foam
Melodea develops technologies that utilize the unique self-assembly properties of NCC into ecologically friendly foams. The foams have technical properties comparable with fossil-oil based rigid foams combined with good fire retardation properties. They present an Eco-friendly solution for insulation applications and as foamed cores for sandwich composites.
Energy Saving Tunable Multi-Functional Low Cost Smart Window
1.Water based thermochromic smart window with tunable multi-functionality including IR reflective/absorbing, shatter resistant and fire resistance with auto-response to environment; and 2. Solution based, low cost, R2R adaptable, and printable electrochromic coating technologies offering high performance with ultra-high contrast, high switching speed and flexible/stretchable.
Bioenabled Plasmonic-Biosilica Nanomaterials for In-situ Detection of Hazardous Chemicals
This research targets developing and commercializing bioenabled nanomaterials with ultra-high optical sensing capabilities that can be massively produced in sustainable and eco-friendly methods. The bioenabled nanomaterials are expected to have significant commercial potentials for in-situ detection of hazardous chemicals such as toxic materials, food contamination and water pollution.
THE TECHNOLOGY IS A MOLD WITH RECONFIGURABLE SURFACE. THE MOLD CAN BE USED FOR THERMOFORMING POLYMER SHEETS FOR PRODUCING, AFTER FEW MINUTES, PRACTICAL CONTAINERS FOR COMMERCIAL PRODUCTS WITH ITS OWN GEOMETRY. THE MOLD SURFACE IS FORMED BY HUNDREDS OF PINS ACTIONED BY A MECHATRONIC CONTROL BASED ON 3D-SCANNING AND SOFTWARE.
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