The fabrication of III-IV compound semiconductors, such as GaAs, and silicon semiconductors requires the use of the hydride gases phosphine and arsine. The accurate sensing of the concentration of these gases is essential for high yield device fabrication. Presently the only methods for detecting these gases for on-line process control are very expensive sensor units. In Phase I of these project, we propose the investigation of several new sensing techniques to develop a low cost (<$3000) hydride gas sensor for on-line process control and monitoring. In Phase II we will construct prototype hydride sensors and test them at several major semiconductor fabrication facilities. Anticipated
Benefits: The development of a low cost on-line arsine and phosphine concentration sensor will improve semiconductor manufacturing efficiency through greater wafer yields.
