The aim of this thesis is to synthesize the nano-composites with supermolecular hydrogen-bonded properties, and to investigate the energy transfer effect among these nano-composites. Above all, we successfully synthesized two kind of surfactants of perylene bisimide with thiol group were synthesized and named as T-PNH、T-PC6, which is to compare the differences to the energy-transfer properties. Moreover, ZnO nanorods was been synthesized can lead to an improved transport probability of electrons and energy. Sequentially, based on the principle of hydrogen-bonding donor and acceptor, thiophene dendrimer with 2,4-bis(ethylamino)-1,3,5-triazine was synthesized and denominated as 15T5N. We expected that these nanocomposites will have favorable energy transfer effect by means of formation of the hydrogen bonding, which could lead performances of photovoltaic cell and chemical sensor to improve in further investigations. The identification and the investigation of photophysical properties were researched by ESCA、FT-IR、UV-visible、PL、TGA、CV and TEM. Finally, we use the TRPL to investigate the effect of energy transfer and electrons transfer.