In the present work, a co-pressing and co-firing process has been developed to fabricate thin YSZ electrolyte film over tubular NiO-YSZ anode support for solid oxide fuel cell (SOFC) application. The one-end-closed tubular anode support was fabricated by cold isostatic pressing (CIP) and electrolyte coating was made by dip coating a terpineol based YSZ slurry over the anode support. The anode support along with coated electrolyte layer was co-pressed in CIP and co-fired at 1350 degrees C to get impervious electrolyte layer. LSM-YSZ composite cathode layer and LSM cathode current collector layer was formed by dip coating terpineol based slurries followed by sintering at 1150 degrees C. Symmetric cells in planar configuration were fabricated and tested by electrochemical impedance spectroscopy (EIS) in order to determine area-specific resistance (ASR) for electrode polarization. An ASR value of 0.79 Omega cm(2) was obtained for Ni-YSzlYSZ interface at 900 degrees C in humidified H-2. The ASR value was 0.55 Omega cm(2) for LSM-YSZ vertical bar YSZ interface at 900 degrees C in air. Tubular single cell having similar to 1 cm(2) cathode current collecting area was generated and the cell was found to give a maximum of 62 mW cm(-2) power density when tested at 900 degrees C. The interfacial microstructures and electrochemical test results illustrate the feasibility of fabrication of tubular anode supported SOFC by co-pressing and co-firing. Copyright (C) 2011, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.