The photoanode of a dye-sensitized solar cell (DSC) utilizing Ti-mesh electrode is fabricated for high-efficiency, low-cost solar cell application. Ti-mesh electrode replaces transparent conducting layer (TCO). The TCOless DSC is composed of a glass/dye sensitized TiO₂ layer/Ti-mesh electrode/electrolyte/metal counter electrode. The Ti-mesh electrode with high conductivity can collect electrons from the TiO₂ layer and allows the ionic diffusion of I⁻/I₃ ⁻ through the mesh hole. Thin Ti-mesh(≈40 μm in thickness) electrode material is processed using the rapid prototype method. Both the photocurrent (6.02 mA/cm²) and fill factor (0.303) are low, and these can be further improved by controlling the pore size and thickness of the mesh, and the contact between the TiO₂ particles and the Ti-mesh metal, respectively.

利用Ti网眼电极制造的染料敏化太阳能电池（DSC）的光电阳极可用于高效，低成本的太阳能电池应用。钛网电极代替了透明导电层（TCO）。无TCO的DSC由玻璃/染料敏化的TiO ₂层/ Ti网电极/电解质/金属对电极组成。在Ti-啮合具有高导电性的电极可以收集从在TiO电子₂层，并允许I的离子扩散^- / I ₃ ^-通过网状孔。使用快速原型方法处理薄的Ti网（厚度约40μm）电极材料。两者的光电流（6.02 mA / cm ²）和填充系数（0.303）低，并且可以通过控制筛孔的孔径和厚度以及分别在TiO ₂颗粒和Ti筛孔金属之间的接触来进一步改善这些值。