Transparent conductive films (TCFs) are extensively used in various products, such as solar cell module, display panel. With good optical transparency and electrical conductivity, indium tin oxide (ITO) is the most-used material for fabricating TCFs. However, because of the high demand and the scarcity of indium, TCFs are very expensive and indium exhaust problem also emerges recently. Therefore, there are researches which focus on ITO recycled process and further applications. In this study, we combined ITO recycling process and printing technologies to manufacture transparent conductive films and patterns for flexible printed electronics applications. First, ITO was recycled from waste display panel, and further purification and size reduction process were applied to form ITO nanoparticles with primary particle size roughly 50 nm. Dispersant and binder were added to formulate conductive nanoparticle ink with hydraulic size roughly 145 nm. Then, blade coating was applied to form transparent conductive film on the substrate. Intense pulsed light (IPL) sintering with different parameters were tested to set the best sintering condition to increase the conductivity of TCFs. The best parameter for sintering was 1000 J divided into four small peaks (250 J each) repeated for four times pulses with 3 s time interval. ITO TCFs on PET substrate showed good conductivity (500 Ω/sq) and transparency (>90 %). Also, the TCF could withstand multiple times bending test with small sheet resistance change. TCFs could also applied as electrode for electrical double layer capacitor. Furthermore, by inkjet printing technology, transparent conductive patterns could also be fabricated without traditional etching process. In summary, this research provides a new guideline for TCFs manufacturing with recycled ITO and provides a new way for reusing end-of-life display panel for transparent conductive films and patterns applications.