In the rapidly evolving electronics industry, precision and innovation stand at the forefront of success. The quest to make new electronics as flexible, smart and sustainable as possible comes with new challenges. Crystallization plays a major role in offering answers.
Crystallization of inorganic materials such as Silicon, Zinc, Titanium, Copper etc. is essential for creating components like semiconductors, batteries, and dielectrics in the electronics industry. Furthermore, crystallization of organic materials like polymers and small molecules is revolutionizing areas such as display technology, renewable energy, and wearable electronics.
Technobis provides state-of-the-art crystallization technology to unlock unparalleled efficiency and reliability in the production and research of electronic materials.
Explore below some of our application notes dedicated to solving specific challenges in electronics R&D.
Shaping the Future of Electronics.
In this booklet we explore how crystallization is tackling key challenges in new electronics development, and present number of case studies.
Solubility assessment of organic semiconductors
In this application note, we look at how to easily determine the solubility of small-molecule organic semiconductors in organic solvents, using our crystallization device Crystal16.
Solubility and crystallization of coloured compounds
Learn how to capture the solubility and crystallization of coloured compounds to advance your batteries research.
Contact us
Please contact our expert team if you have a question about crystallization in the electronics field, or if you'd like to see how our instrument can help with your particular R&D challenges!