Market for transparent conductors in PV apps to reach $300M in 2016

21 February 2012 In its latest report on materials for the photovoltaics (PV) industry, “Transparent Conductors in Thin-Film and Organic PV Applications 2012”, industry analyst firm NanoMarkets estimates that the total market for transparent conductors (TCs) in PV will grow…

21 February 2012

In its latest report on materials for the photovoltaics (PV) industry, “Transparent Conductors in Thin-Film and Organic PV Applications 2012”, industry analyst firm NanoMarkets estimates that the total market for transparent conductors (TCs) in PV will grow at a CAGR of over 30 percent from a value of about $90 million in 2012 to about $300 million in 2016.

While the overall PV market is entering a period of slow growth there is still good news for TC suppliers. The thin-film and organic PV sectors, which use TCs, are gaining share versus c-Si PV and furthermore, NanoMarkets believes that the pace of growth in the TFPV markets will offset declines related to decreasing government support and slow overall economic growth. Indium-free “alt-TCOs” will continue to take market share away from ITO in the PV sector as they cause minimal disruption to existing production methods and some are better suited than ITO to particular PV types based on their lower cost, commodity scale availability, processing temperature window, or work function match to the rest of the TFPV cell. The alt-TCOs are expected to generate nearly $100 million dollars from PV applications by 2016.

Implementation of new TCO target systems or new deposition processes, such as by transitioning from conventional planar targets to more efficient rotary targets wherever possible, could greatly improve utilization rates and directly affect the bottom line for panel makers. Both TC and equipment suppliers can partner with panel makers on the optimization of existing deposition processes to maximize TC mobility, which would improve cost-per-watt values and increase the competitiveness of a particular TFPV technology for on-grid installations.

The biggest prospects for TCs, at least in the long-term, lie with solution-processable nanomaterial-based TCs, such as those based on nanosilver, another nanoscale metallic coating, or carbon nanomaterials. Solution processing will be especially attractive for new PV lines where existing vapor deposition equipment is not already entrenched, and solution processable TCs will become an even bigger factor as the relative importance of flexible PV increases over the next decade. NanoMarkets predicts that nanomaterial-based TCs can generate almost $50 million from PV applications by 2016.

Visit NanoMarkets at www.nanomarkets.net.