Concentrator photovoltaics (CPV) is a photovoltaic technology that has demonstrated the highest efficiencies among existing PV technologies, offering several environmental advantages. The main focus of this project is the investigation of dispensed interconnects as an alternative to gold wire bonds for forming electrical connections between the front side of the cells and the circuit board. As the current wire bonding process is expensive due to the use of gold and slow because of single-wire formation, an alternative solution is required before the technology can be scaled to volume manufacturing. The dispensed interconnects were characterized using optical microscopy, high-resolution microscopy, and scanning electron microscopy, as well as electrical resistance measurements and pull tests. Their long-term stability was evaluated through climate chamber testing, including temperature cycling and humidity freeze tests. The results revealed crack formation and degradation in the dispensed contacts, leading to high-resistance failures in some cases. The dispensed interconnects demonstrate high potential for cost reduction; however, the results indicate that further development of materials and fabrication processes is required. Future work will focus on improving material stability and exploring alternative front-contacting approaches.