Whereas small siRNA nanocarriers with a size of 10-20 nm exert high tissue-permeability, they encounter the challenge of inefficient adsorption on the cell surface, resulting in poor cellular uptake of siRNA. To solve this dilemma, this study aims to control the hydrophobicity of a small siRNA nanocarrier, unimer polyion complex (uPIC), with a size of ∼10 nm. The uPICs are fabricated to consist of a single pair between siRNA and a smart triblock copolymer comprising hydrophilic poly(2-ethyl-2-oxazoline) (PEtOx), thermoswitchable poly(2-n-propyl-2-oxazoline) (PnPrOx), and cationic poly(l-lysine) (PLL). The PnPrOx segment is dehydrated at 37 °C (>lower critical solution temperature) to enhance the hydrophobicity of uPICs. The uPICs with a hydrophobic domain facilitates cellular uptake of the siRNA payload through stronger binding to the cell surface, compared with control uPICs without a PnPrOx segment, leading to a significantly enhanced gene silencing effect in cultured cancer cells.