Laboratory equipment

Laboratory equipment

Nanotechnology is one of the most important industries of the 21st century. The high surface-to-volume ratio, the wide range of processable materials, the possibilities of implementation in macrostructures and other unique properties make nanofibers one of the most promising materials of the future. Electrospinning is one of the most flexible, versatile, and efficient techniques for preparing nanofibers. The laboratory equipment we offer for the preparation of nanofibrous structures opens new R&D avenues for this innovative sector, largely due to its simplicity, flexibility, and reliability.

Preparation of planar
nanofibrous structures

The laboratory equipment is capable of preparing flat nanofibrous structures with a width of 500 mm by depositing them between two...

Preparation of nanofibrous membrane with incorporated dust particles

The laboratory equipment is capable of preparing flat nanofibrous structures with simultaneous integration of dust particles...

Preparation of 3D
cotton-like nanofibrous structures

Laboratory equipment using a world unique technology for the production of nanofibrous structures capable of preparing 3D...

Preparation of nanofibrous
composite yarns

Laboratory equipment capable of processing pure or composite nanofibrous yarns produced on the equipment offered...

Preparation of pure nanofibrous yarns
without a core support yarn

This is a highly innovative laboratory device for the preparation of pure nanofibrous yarns in a semi-continuous manner... 

Preparation of braided
nanofibrous yarns

Laboratory equipment capable of processing pure or composite nanofibrous yarns produced on the equipment offered by us...  

Key features of the equipment


The device is based on the worldwide unique technology for nanofibrous production using alternating current. This technology enables the creation of entirely innovative nanofibrous structures that can be modified by various other methods during the fabrication process, thus adding specific functional properties.


The professional team of Nanotech dynamics has more than 12 years of experience in the technological development of worldwide unique devices and the production of a wide range of nanofibrous structures. This experience and careful selection of the most durable and highest-quality materials for structural and control elements guarantees the highest quality, even under high operating loads. Following that, we also offer technical support, service, and operator training as part of our services.


User-friendliness is ensured by the precise and simple setting of process parameters via a 15" touch panel and the easy interchangeability of the individual technological elements in the spinning chamber. All key components are easily accessible, making the equipment very simple to use, maintain and clean.


The equipment can be delivered in various variants and customised according to specific customer requirements and target applications. The spinning chamber allows for high modularity and flexibility in the arrangement of technological elements based on the needs of laboratory experiments or production processes. Another advantage is the possibility of advanced collection and interpretation of process data and measured parameters.


Safety is assured by the integration of a sophisticated control and monitoring system, a fire extinguishing system, the design of the equipment itself, and the low noise level in operation. The spinning chamber is sealed and fitted with safety locks, and the operation of the plant is indicated by warning lights. During the softening process, the monitoring and control system prevents users from entering the spinning chamber and interrupts the process if any anomaly is detected. The fire extinguishing system protects the users and the plant from fire and reacts immediately if ignition occurs in the spinning chamber.


The facility is capable of continuously spinning a wide range of biomedical and engineering polymers onto a variety of substrates for several application areas. The production process is set up so that efficient dosing of the polymer solution occurs, material losses are minimised, and the process consumes minimal energy.