In the past few decades, spintronics becomes a novel field and many materials have been widely studied in spin valve, spin pumping system, and magnetic tunnel junction. Among them, π –conjugated molecules are regarded as a potential material due to favorable carrier transport properties, low spin-orbital coupling, low-cost, and mechanical flexibility. Although this field has rapidly grown, the spin transport mechanism in organic material is still under debate. In this thesis, we demonstrate the different spin transport behavior of Perylene-3,4,9,10-tetracarboxylic dianhydride(PTCDA) in spin pumping systems by changing the ferromagnetic material. We used general bilayer and trilayer structures. Pd was deposited as the spin detector on the top layer and PTCDA act as barrier layer inserted between ferromagnetic layer and heavy metal. When permalloy is used as spin source, spin current can pass through PTCDA layer as expected and the inverse spin Hall voltage convert from spin current can be measured. However, if we replace permalloy with YIG, the spin pumping signal disappear. By analyzing Gilbert damping constant, we further resolve the change of spin mixing conductance after inserting PTCDA. The results will enable us to know more about the spin transport mechanism in organic material.