In this study, conventional conducting polymer poly(3-hexylthiophene)(P3HT) and brand new all-conjugated block copolymer poly(2,5-bis(2’-ethylhexyloxy) benzene)-b-poly(3-hexylthiophene)(PEHPP-b-P3HT) were synthesized via Grignard metathesis method (GRIM). Following, Gel permeation chromatographer (GPC) was used to characterize the synthesized polymers. Furthermore, we fabricated ZnO/conducting polymer in-situ nanohybrid system by using P3HT and PEHPP-b-P3HT as templates. We use zinc acetate dihydrate(Zn(Ac)2．2H2O) as the precursor of zinc oxide(ZnO) and P3HT segments as the anchorage to chelate zinc ions. After that, we utilize a novel method, high-pressure reaction, to convert chelated Zn2+ into ZnO. The high-pressure treatment in-situ nanohybrid samples were prepared by following steps. We prepared Zn2+/polymer toluene solution samples first and casted onto the substrates. Toluene and other solvents were evaporated slowly for several hours. When the samples were dried, they were put on the top of the solvent reservoir of the high-pressure reactor with some solvent composed of 1.5mL methanol and 1.5 mL water. Then, screwed the caps of high-pressure reactor tightly onto the reactor. And take the whole reactor in ambient atmosphere at 150oC for 2 hour. From XPS spectra, we ascertained that zinc ions were chelated by P3HT segments. And the morphology of ZnO/polymers hybrid samples were analyzed by GIWAXS and TEM. Through GIWAX, it indicated that P3HT dissolved in toluene possessed good orientation and Zn2+ was converted into ZnO successfully via high-pressure reaction. TEM images showed that P3HT segments successfully chelated zinc ions. UV-Vis and PL spectra illustrated the effects of different ZnO ratios in the nanohybrid system. Moreover, we use TOF-SIMS to test if the nanohybrid samples were homogeneous or not. In summary, because of the special optoelectronic properties of the high-press in-situ nanohybrid sytems, we confirmed that they will possess many applications in the future.