Spinach has high concentration of photosynthetic pigments (chlorophyll, lutein and carotenoid), oxalate and nitrate, photosynthetic pigments is good for human health, however, oxalate and nitrate should not have excessive intake also for the sake of health. EU had set upper limit of nitrate level in leafy greens but no such standard was set for oxalate. The goal of this study is to investigate on the usage of artificial light to grow spinach ‘Mei Ho’ in plant factory. Various commercially available LED tubes with different spectra were tested. Using quantitative indexes such as EY (energy yield) and PY (Photon yield) of shoot fresh weight and/or contents of photosynthetic pigments, the performance of various cultural procedures can be compared, and the one with the highest outcome and quality can be identified. Totally five experiments were conducted. They are: 1. Investigate on the difference among three commercially available LED tubes on the production of spinach. 2. Investigate on the difference of the mixed light spectra including white plus blue and white plus far-red on the production of spinach. 3. Compare the difference of adding two far-red LED tubes and two cool-white LED tubes on the production of spinach. 4. Different durations of far-red light are tested to inhibite bolting of spinach while light period is longer than critical hour of spinach, which is 12 hours. 5. Investigate on the timing to apply far-red light for the shortest duration derived from previous experiment to inhibite bolting of spinach. . Results showed that cool white mixed with blue light will enhance concentration of photosynthetic pigments, however, it also inhibite the growth, thus leading to the decrease of fresh weight and photosynthetic pigments per production area. With cool white LED tubes only, 11 hour is the critical light period, 12 hours of light will lead to bolting of spinach. Two hours of far-red light right after the photo period of cool-white illumination, the bolting will not happened. Two hours of far-red is provided during the photo period, no matter it is at the first, central or last two hours during the photo period, the bolting can be inhibit. Using cool white LED tubes illuminated for 14 hours with far-red simultaneously at the last 4 hours during the light perod, the bolting can be inhibite and the fresh weight can reach 152.4 grams per plant, the chlorophyll, lutein and carotenoid pigment content can achieve 2406.16, 993.53 and 1058.28 miligram per square meter respectively. Compare with the treatment without using any far-red, the fresh weight only reach 88.96 gram per plant using cool-white LED tubes illuminated for 11 hours per day. The annual production, energy yield (EY) and photon yield (PYBAR) can be enhanceticd by 71, 25 and 23 %, respectively with the help of far-red LEDs. Concentration of three photosynthetic pigments per unit production area can be increased by 44 %, 51 % and 37 %, respectively. The best light treatment subjects to single or multiple targets are compiled. The targets are to derive highest fresh weight, concentration of photosynthetic pigments and/or the lowest concentration of oxalate and/or nitrate. Such Table with targets matching consumers’ need, should be able to serve as a useful tool to the plant factory industry.