Browse through patent flyers and video-presentation of the Green Transition & Sustainable Technologies and book a one2one meeting with the inventors at the following link:
Permanent magnet actuator for adaptive actuation – Sant’Anna School of Advanced Studies
Description: The invention proposes the creation of a new type of actuator that allows to achieve adaptability to the environment, ensuring a high mechanical efficiency and high transmission force.
Agricultural machine for surface soil tillage– University of Pisa
Description: The present invention concerns an agricultural machine for the mechanical control of weeds by means of surface tillage called "active disc harrow", able to operate both non-selectively in pre-emergence and selectively in post-emergence of the herbaceous or horticultural crop on which it is used.
Method for biofertilization and bioprotection of vegetal material and bacterial formulation for carrying out said method– University of Pisa
Description: The invention relates to a process for the production of micro-propagated seedlings treated with micro-organisms capable of exerting phyto-stimulant and bio-control activities.
A non-invasive method for measuring absolute water content of a leaf– University of Pisa
Description: The technology proposes an in-field method for determining the water content of the plant (leaves) and the related apparatus and management tool.
Method for detecting macrophomina phaseolina – University of Pisa
Description: The invention relates to a molecular diagnostic method for detecting the presence of the phytopathogenic fungus Macrophomina phaseolina in infected soil, seed and plant samples.
Copolymers based on polyester and aromatic polycarbonate– University of Pisa
Description: The new patented materials feature a copolymer structure containing biodegradable polyester segments and aromatic polycarbonate segments (20%), prepared by a reactive mixing process.
Copolymers based on reactive polyesters and plasticisers for the manufacture of transparent, biodegradable packaging film – University of Pisa
Description: The present invention relates to the preparation and use of novel copolymers comprising polylactic acid (PLA), organic plasticizers with epoxy functionality and biodegradable polyester elastomers.
Process of controlled radical grafting of a polyolefin– University of Pisa
Description: The invention relates to a process for controlled functionalization of a polyolefin in the presence of radical reaction initiators.
Procedure for the production of a compatibilized mixture of A polyolefin and a polar polymer – University of Pisa
Description: The present patent application is based on a reactive mixing process of ethylene polymers and polyamides developed by us, through which it is possible to obtain in a single step (one-step) master batch with polyolefinic or inverse matrix.
Cycle for the conversion of low enthalpy thermal energy into electrical ENERGY – University of Pisa
Description: The innovative system for the production of electricity is based on the use of fuel cells within a high-efficiency cycle that converts the thermal energy provided by "low" temperature (e.g. ~ 80 °C) and low enthalpy heat sources.
Luminescent solar concentrators from filmogenic polymeric aqueous dispersions – University of Pisa
Description: The patented technology is an innovative Luminescent Solar Concentrator (LSC), created from filmogenic aqueous dispersions containing fluorophores with high quantum yield.
Kit of components for transplanting aquatic and terrestrial plant SPECIES – University of Pisa
Description: The present invention relates to a modular, flexible and eco-compatible system for the transplantation of plant species (aquatic and terrestrial) for the conservation and/or restoration of natural environments.
Field-effect transistor with two-dimensional channel realized with lateral heterostructures based on hybridized graphene – University of Pisa
Description: The present invention is a field-effect transistor with a two-dimensional channel consisting of a thin sheet of one or more atomic layers of lateral heterostructures based on hybridized graphene.
Method for processing multi-pass radar data for sensing and analysing multiple components of non-stationary SCATTERERS – University of Pisa
Description: The invention refers to a method of processing interferometric image radar data, acquired in multi-pass configurations, for the detection and analysis of multiple components of non-stationary radio backscatter at different altitudes and/or displacement speeds.
Method for producing marine phanerogams – University of Pisa
Description: The patented system exploites the seeds of P. oceanica fruits.
Method for reproduction of red coral and other anthozoans – University of Pisa
Description: The present invention relates to a method of reproducing Anthozoan colonies from existing colonies in a natural or controlled marine environment by spontaneous settlement, resulting in young red coral colonies (recruits) that can be transferred to another natural or controlled marine environment.
Procedure for the production of olive oil of high organoleptic and nutritional quality – University of Pisa
Description: The present invention concerns a method for the production of olive oils, especially extra virgin, enriched in cellular compounds extracted from the fruit.
System for the determination of the real evapotranspiration of a vegetated SURFACE – University of Pisa
Description: The invention proposes an intelligent apparatus to be used in open fields or greenhouses for expert irrigation management, ensuring efficient use of the water resource.
Method and corresponding device for protecting vehicle from cyber attack – University of Pisa
Description: The invention concerns techniques for protection against computer attacks in a CAN (Controller Area Network) communication network in a vehicle using the CAN-bus system.
Method for temperature stabilization of the resonance frequency of micromechanical semiconductor resonators – University of Pisa
Description: The invention aim is to provide a method for the fabrication of silicon micromechanical resonators that are temperature stable and therefore integrable with consumer electronic devices.
A silicon solar cells lamination plant and a process carried out with this plant – IMT School for Advanced Studies Lucca
Description: The object of this invention is a plant for the lamination of silicon solar cells which allows to obtain photovoltaic modules of improved efficiency thanks to the reduction of the impact of the phenomenon of silicon cracking.
A method and a device for position and mass measurements – Scuola Normale Superiore
Description: The present invention relates to a method and a device for carrying out position measurements such as scans of surfaces for the study of their topography and physical properties with microscopic resolution, and mass measurements (microscopic masses) by means of probes in dynamic mode, oscillating at a given frequency.
Autonomous variable buoyancy device – Sant’Anna School of Advanced Studies
Description: The main goal of this invention is to provide a device for sampling and measuring at different depths.
A new grain amaranth (Amaranthus cruentus L.) variety for temperate climates – University of Firenze
Description: The research group has carried out genetic improvement resulting in the production of the new variety of A. cruentus currently called UNIFI6161.
Instrument for the physical characterization of tephra fallout – University of Firenze
Description: The invention responds to the need of evaluate the quantity and grain size of the emitted material, to obtain more reliable dispersion models of volcanic ash.
Sharing, monitoring e management system of rechargeable batteries – University of Firenze
Description: The patented invention implements an interconnected and intelligent sharing mechanism of batteries and no more than means, guaranteeing the same benefits of current sharing systems but also ensuring the use and optimal recharging of the batteries exchanged between users.
Machinery for de-stemming and selecting grapes and small fruits by ripening class – University of Firenze
Description: The present invention relates to an apparatus to be used for the production of wine immediately after harvesting the bunches, which consists in separating the berries from the stalk and at the same time dividing the berries into different ripening classes.
Molecular method for the authentication of Echinacea species – University of Firenze
Description: The present invention relates to a method for identifying material from Echinacea purpurea in a sample, distinguishing it from material from very similar species such as Echinacea pallida and Echinacea angustifolia, the reagents needed for this method and the kit to make it.
Kit for the colorimetric analysis of chlorine in pools and waters – University of Firenze
Description: The purpose of the present invention is the supply of a kit for the visual determination of the chlorine concentration, which is necessary for an effective disinfection of drinking water or water used for recreational purposes.
Automatic Emergency braking system for motorcycles (MAEB) – University of Firenze
Description: The invention consists in the use of the clutch of a motorcycle to interrupt the accidental action of an automatic emergency braking system in order to guarantee the safety of the rider.
Smart plug – University of Firenze
Description: This invention consists of a socket capable of monitoring numerous descriptive parameters of the operation of an electrical load or several electrical loads and of communicating with a control platform, controlled by the user, capable of sending commands to the socket and carrying out in-depth data analyzes received as the Voltage Quality and Power Quality.
SmartComm – University of Firenze
Description: The SmartComm system was developed as a tool for measuring electrical network parameters and diagnostics for problems related to Power Quality.
Driving simulator – University of Firenze
Description: The invention resides in a low-cost technology to simulate the driving of a motorcycle for play or safety training purposes, ensuring the realism of a high-tech simulator and the complexity typical of video game platforms.
Health-Met – University of Firenze
Description: The invention, called Health-Met, is a technology designed for any person who is required to wear a helmet, both in the workplace and in the recreational environment.
Active noise abatment – University of Florence
Description: The patented technology consists of a method and a coordinated system of elements for active noise abatement, that is, for the reduction of sound pollution in indoor and outdoor areas and environments.
GNL Regasification for vehicles – University of Firenze
Description: The patented technology allows an immediate improvement of the energy efficiency of the means of transport currently on the market and powered (also) by LNG, so as to constitute a reasonable bridge between the short and long-term objectives in terms of energy improvement implement green transport still anchored to traditional methods.
Mutant submarine – University of Firenze
Description: The technology, called RUFIVIST (Reconfigurable Underwater Vehicle for Inspection, Free-floating Intervention, and Survey Tasks), is part of the so-called Unmanned Underwater Vehicle (UUV), i.e. underwater drones without personnel on board.
Automatic convoys – University of Firenze
Description: The patent makes it possible to achieve a mechanical coupling between vehicles in order to guarantee the safety and operation of a convoy of up to 10 vehicles capable of circulating as if it were a single vehicle.
Wooden Facade – University of Firenze
Description: The patented technology combines an aluminum substructure with a cladding panel in Pino Radiata wood with Accoja treatment in order to create a commercially competitive system compared to advanced screen facades with other cladding materials and obtain a cladding characterized by exceptional performance of stability and resistance to climatic factors.
3D imaging ground-based synthetic aperture radar (GBSAR) – University of Firenze
Description: The invention consists of a ground-based synthetic aperture radar capable of acquiring both three-dimensional and two-dimensional image.
Synthetic aperture radar (SAR) with transponder aboard UAV – University of Firenze
Description: The patented invention is a ground-based synthetic aperture radar (GBSAR) that makes use of drones (UAV) to realize the opening synthesis without weighing the aerial vehicles used.
Air flow with ultraviolet radiation barrier for sanitizing environments – University of Firenze
Description: The invention concerns a vertical barrier of UVC rays, interposed between people in a static position.
Anti-collision for smart vehicles based on Visible Light Communication (VLC) – University of Firenze
Description: The invention concerns a collision avoidance system at road intersaction based on the Visible Light Communication Technology.
Zelid – Zero emission long-lasting irrigation water dispenser – University of Firenze
Description: ZELID is a punctual, multilevel and very low flow water delivery system for autonomous and prolonged irrigation of planters of all sizes and for any use.
Improved drone structure – Zero emission long-lasting irrigation water dispenser – University of Firenze
Description: The patent relates to drone's frame improvements aimed at significantly increasing the performance and safety of these aircraft.
Universal and magnetic plug and socket group and their transition adapter - University of Firenze
Description: The invention is about a new magnetic plug and socket group, alternative to the Schuko socket, that it does not require a predefined plug direction.
Sensorized device for the analysis of a fluid by means of acoustic waves – Scuola Normale Superiore
Description: The invention is a portable device for the detection of traumatic brain injuries (TBI) biomarkers from rapid blood analysis.
New Plant Variety: Sino Japanese Plum Dofi Sandra – University of Firenze
Description: The new plant variety of the Japanese Sino Plum Dofi Sandra was obtained by the breeders in 1989 by crossing the Black Gold x Brumosa plum varieties
Hydroalcoholic extract from chestnut shell for use as an antibacterial – University of Siena
Description: The present innovation refers to the field of bioeconomy, using biological materials of industrial waste for phytopharmaceutical use.
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