Altatech, a subsidiary of Soitec, and Helmholtz-Zentrum Berlin für Materialien und Energie (HZB), a member of the Helmholtz Association of German Research Centres, have launched a collaborative partnership to research and develop materials for the next generation of high-efficiency solar cells, including new classes of materials and innovative device structures for photovoltaic and photocatalysis applications.
As part of the organizations' joint effort, Altatech will install a new single-substrate multi-chamber solution, an AltaCVD system, at HZB's newly constructed Energy Materials In-situ Laboratory (EMIL) at the synchrotron light source BESSY II facility in Berlin and will work with the institute to investigate new materials-deposition processes, functional interfaces and device structures for solar energy conversion and storage.
Altatech's new AltaCVD system will be used in HZB's EMIL lab to deposit amorphous silicon (alloys), transparent conductive oxides and ultra-thin dielectrics used in fabricating next-generation solar energy devices. The CVD system will be hosted by the new EMIL building, adjacent to the third-generation storage ring BESSY II. The cluster tool will be directly connected to a state-of-the-art X-ray analytical end-station, which accesses a dedicated beam line from BESSY II. The partner organizations will conduct atomic-layer deposition, plasma-enhanced chemical vapor deposition and physical vapor deposition on substrates ranging from small research samples up to fully industry-compatible six-inch wafers and use EMIL's outstanding analytical capabilities to analyze material and interface properties in between successive processing steps.
"EMIL aims at exploring materials for high-efficiency photovoltaic cells and new catalytic processes for future solar energy generation and storage concepts. We will develop and characterize these materials with basic energy research methods, but prepare them with industrially related methods to ensure rapid industrial implementation," said Prof. Klaus Lips, head of the EMIL project and HZB's Advanced Analytics Group. "The AltaCVD system provides us with a unique combination of a highly flexible design in terms of temperatures, precursors, plasma cleaning, etc. with a fully industrial-compatible deposition technology."
"This order reinforces the AltaCVD system's leadership position in advanced material-deposition applications," said Jean-Luc Delcarri, general manager of Soitec's Altatech subsidiary. "Our collaboration with the Helmholtz-Zentrum Berlin allows us to apply our advanced material-deposition technology at a state-of-the-art synchrotron radiation facility. Together, we are opening the door to a new era in advanced renewable-energy development that will help researchers to tackle the challenges of future world energy needs."
The versatile AltaCVD tool provides the processing flexibility and performance needed for both research projects and volume manufacturing. The platform, which can be configured with up to six chambers, uses single-wafer deposition technology in developing new process integration while safeguarding against unacceptable contamination and defectivity. Altatech's CVD system is designed to deposit thin- and thick-film materials with extremely high uniformity and film-thickness control, key parameters needed for solar, semiconductor and MEMS applications.