Sweden’s Minister of EU Affairs and Trade visits Midsummer

26 March 2017
Ann Linde

[Stockholm, Sweden, March 26, 2017.] Sweden’s Minister of EU Affairs and Trade Ann Linde has visited Midsummer, a leading solar energy technology provider based in Järfälla just outside the Swedish capital of Stockholm.


Please see image from the visit here


Midsummer is a leading developer and supplier of advanced solar energy technology solutions for the production and installation of thin film solar panels, and also a leading Swedish growth and export company; Midsummer has several times been named as one of Sweden’s and Europe’s fastest growing technology companies.


Ms. Ann Linde visited Midsummer this week as part of a visit to the Järfälla municiality, which also included a stop at the SAAB Defence and Security Group.


“It was very interesting to study Midsummer’s advanced development and production technologies,” said Ann Linde. ”Our government strongly supports and encourages the development and growth of Swedish high tech companies in the renewable energy sector, with export potential such as Midsummer.”


For photos of thin film CIGS solar cells and the Midsummer manufacturing equipment, please go to http://midsummer.se/press/media-gallery or contact Mr. Lindström.

For additional information please contact:
Sven Lindström
CEO, Midsummer AB
Email:
Phone: +46 (0) 8 525 09 610


About Midsummer
Midsummer is a leading developer and supplier of advanced solar energy technology solutions for the production and installation of thin film solar panels, including equipment for cost-effective manufacturing of thin film solar cells and building-integrated photovoltaics  (BIPV) solutions for the application of thin film solar cells on buildings (facades, roofs etc). Thin film solar modules are light, flexible, durable and highly efficient and therefore ideal for distributed renewable energy projects. Midsummer’s prorietary technology is based on a rapid process for the production of flexible thin film solar cells using sputtering of all layers of the solar cell.