Delft Enterprises

XS Innovations specializes in the development of innovative vascular access devices for hemodialysis patients. Their flagship product is a device that manages blood flow during dialysis sessions, opening and closing the anastomosis between an artery and a vein. This technology aims to reduce complications and enhance the quality of life for patients with end-stage kidney disease.

Innatera is an innovative company specializing in the development of ultra-low power neuromorphic processors designed to replicate the brain's mechanisms for sensory data processing. Founded in 2018 as a spin-off from the Delft University of Technology, the company focuses on creating advanced analog-mixed signal processing architectures. These neuromorphic chips enable sensor data to be processed significantly faster—up to 100 times quicker—while consuming up to 500 times less energy compared to traditional processors. By leveraging the principles of spiking neurons and synapses, Innatera's technology provides businesses with efficient access to real-time sensor data, enhancing their capabilities in various applications.

Innatera is an innovative company specializing in the development of ultra-low power neuromorphic processors designed to replicate the brain's mechanisms for sensory data processing. Founded in 2018 as a spin-off from the Delft University of Technology, the company focuses on creating advanced analog-mixed signal processing architectures. These neuromorphic chips enable sensor data to be processed significantly faster—up to 100 times quicker—while consuming up to 500 times less energy compared to traditional processors. By leveraging the principles of spiking neurons and synapses, Innatera's technology provides businesses with efficient access to real-time sensor data, enhancing their capabilities in various applications.

QphoX specializes in developing quantum modem devices that facilitate connections between quantum computers over a network. Their technology focuses on creating a quantum transducer that couples microwave and optical photons through a mechanical intermediary resonator. This process converts information between microwave domain and optical telecom frequencies, enhancing the fidelity and reducing loss during the transmission of quantum states.

Villari is a company that specializes in wireless structural health monitoring technology aimed at enhancing infrastructure safety and maintenance. Its platform provides advanced wireless crack monitoring sensor units designed to detect fatigue cracks in critical structures such as steel bridges, heavy lift cranes, and offshore installations. By facilitating remote inspections and offering automated warnings, Villari enables clients to implement predictive maintenance strategies effectively. The technology empowers organizations to make informed, data-driven decisions regarding the upkeep and longevity of their assets, ultimately contributing to improved safety and operational efficiency.

Gilbert Technologies B.V. is a medical device company based in Naarden, the Netherlands, established in 2016. The company specializes in the development and commercialization of innovative inhaler devices designed for the treatment of various lung diseases, pain management, and vaccination. Its technology utilizes electrohydrodynamic atomization to create devices that enhance lung deposition characteristics, making them suitable for administering therapies for conditions such as cystic fibrosis, asthma, lung cancer, and chronic obstructive pulmonary disease. By focusing on disruptive and sustainable health technologies, Gilbert Technologies aims to improve the quality of life for patients requiring pulmonary medicine.

QphoX specializes in developing quantum modem devices that facilitate connections between quantum computers over a network. Their technology focuses on creating a quantum transducer that couples microwave and optical photons through a mechanical intermediary resonator. This process converts information between microwave domain and optical telecom frequencies, enhancing the fidelity and reducing loss during the transmission of quantum states.