The structural,electronic,and optical absorption properties of TiO2 nanotube(TiO2NT)with Cun clusters(n=1–4)adsorbed on its surface have been investigated based on density functional theory calculations.The TiO2NT is constructed by rolling up a(101)sheet of anatase TiO2 around the[1 01]direction;the ground states of Cun/TiO2NT systems are determined by analyzing the average adsorption energies.Calculation results show that odd-even oscillations occur for the average adsorption energy,the Cu–O bond length,and the amount of transferred electrons,with the increase in Cun cluster size;and the Cun/TiO2NTs with odd n’s demonstrate stronger interaction between the Cun cluster and the TiO2NT.Also,the impurity states introduced by the Cun cluster to the band gap of TiO2NT cause an obvious redshift of the optical absorption spectrum toward the visible light region,especially for the even n cases. The structural, electronic, and optical absorption properties of TiO2 nanotube (TiO2NT) with Cun clusters (n = 1-4) adsorbed on its surface have been investigated based on density functional theory calculations. TiO2NT is constructed by rolling up a sheet of anatase TiO2 around the [1 01] direction; the ground states of Cun / TiO2NT systems are determined by analyzing the average adsorption energies. Calculating results show that odd-even oscillations occur for the average adsorption energy, the Cu-O bond length , and the amount of transferred electrons, with the increase in Cun cluster size; and the Cun / TiO2NTs with odd n’s demonstrated stronger interaction between the Cun cluster and the TiO2NT.Also, the impurity states introduced by the Cun cluster to the band gap of TiO2NT cause an obvious redshift of the optical absorption spectrum toward the visible light region, especially for the even n cases.