Characterization Equipment
Trusted, proven instrumentation designed for accurately characterizing and testing photovoltaic films, single-junction devices, and complete modules. Delivers reliable, high-precision measurements that support research, development, and quality assurance in solar technology.
Source Measure Units
Source measure units for precise solar cell characterization and research, offering cutting-edge technology for enhanced testing efficiency.
Solar Simulators
Solar simulators for precise light testing for compact visible-light work, extended-spectrum lab research and full-spectrum, high-power solar studies.
LBIC
Laser Beam Induced Current (LBIC) desktop system for fast high resolution mapping of the photovoltaic response over large areas.
Roll-to-Roll LBIC
Contactless, non-destructive imaging solution for printed solar cells, enabling high-speed, detailed analysis of photovoltaic performance.
Temperature and Relative Humidity Probe
A temperature and relative humidity probe that logs temperature and relative humidity data over time, providing valuable environmental insights.
CalCell Reference Device
The CalCell is reference device that you can use to calibrate the intensity of your solar simulator at the position of your device.
Reflectors
Designed for seamless interchangeability, these different apertures allow you to transform a single light source into a multi-application powerhouse.
Precision Sunlight In Your Lab
The ISOSun Solar Simulators delivers highly controlled, laboratory-grade sunlight for accurate indoor testing of solar cells and materials. Designed for stability, uniform illumination, and tunable spectra, ISOSun systems allow researchers and engineers to replicate real-world solar conditions with exceptional precision.
See Every Detail in Your Solar Cells In Seconds
The Ultrafast LBIC mapping system reveals what traditional inspection methods miss. Using a finely focused 40 µm laser spot and a scanning area of up to 250 × 250 mm², the system generates high-resolution photovoltaic response maps in seconds—helping researchers and manufacturers quickly identify defects, coating errors, shunts, and inactive regions.
Master Roll-to-Roll Processing of Printed Solar Cells
Join our hands-on printed electronics workshop and gain practical experience in every step of printed solar cell manufacturing, from ink preparation to testing and final integration. You’ll master solar cell design, printing, coating, and performance testing, using the latest equipment like the Laboratory Roll-to-Roll Coater, Slot-die Coater, LBIC, ISOSun Solar Simulator and Source Measure Units. Tailored to your needs, our workshops are perfect for students seeking ECTS credits or professionals wanting to expand their expertise.
How to Make Solar Cells Using the Slot-die Coater
Learn how to fabricate solar cells using slot-die coating and flexo printing on a Slot-die Coater. From preparing the ink and coating the active and hole-conducting layers to printing the silver back electrode. By combining slot-die coating with flexo printing, this method enables efficient and high-quality solar cell production.