We have enhanced the performance of lithographically patterned on paper and tailored it to a do it yourself method by examining the impact of each microfabrication step on surface properties. Modification of photoresist spreading, baking, exposure and developing steps improved paper and channels quality and decreased fabrication costs and time. The proper concentration of SU-8 in cyclopentene was found 1/8 (volumetric), to enable coating on paper by soaking, faster baking (10 min-65 ℃
℃
), and improved paper hydrophilicity. The UV-exposure time and energy were modified to enhance the channel quality. Then, the patterned paper was washed in cyclopentene for 15 min, and baked for 1 min at 95 ℃. The modified process leaves 100 μm uniform channels on paper in around 26 min, from design to completion. Each step modification was assessed by analyte flow testing. The tuned process also improved the uniformity of channels, and eliminated the need for a spinner or hotplate. Exposure refinement alleviated the necessity for a mask aligner machine, and sunlight may also be used instead of UV. Channels were finally treated with BSA to improve partitioning and analyte flow, and reduce longitudinal binding, verified by IR absorption spectrum. The resulting μPAD was used for detection of TSH on the onset of hypothyroidism at 4 mU/L in four minutes, using an ELISA protocol.