Light-emitting diodes (LED), with energy-efficient and fixed emission wavelength, have been used as light source for plant growth recently. Tissue culture is a main tool for mass-propagation for Phalaenopsis. In this study, in vitro plantlets of large white-flowered cultivar, Phal. Sogo Yukidian 'V3', were grown under various light sources including white fluorescent lamp (WFL), LED light of monochromatic red light (LR), and LED bichromatic red and blue light with a ratio of 5 to 2 (LRB) as artificial light sources for tissue culture with light intensity of 50 μmol•m^(-2)•s^(-1) photosynthetic photon flux (PPF). The results showed that, after 6-week-culture, the plantlets with LR produced yellowish leaves with the lowest chlorophyll contents but had the highest total sugar content and the longest root length. Plantlets with LRB had the lowest level of ascorbic acid peroxidase (APX) and the highest level of superoxide dismutase (SOD). Plantlets with LRB exhibited higher activity for carbohydrate synthesis, including increased accumulation of photosynthetic protein such as rubisco large subunit (RbcL) and hexose synthesis protein like cytosolic fructose-1,6-phoshpatase (cFBPase), and the highest expression of sucrose hydrolysis protein like sucrose synthase (SUS) gene. LRB and WFL resulted in higher levels of protein involved in amino acid synthesis such as glutamine synthetase 1 (GS1), while LR increased protein accumulation of photosystem II protein PsbA and cell division protein such as cell-division-cycle kinase 2 (CDC2). LRB with 50 and 100 μmol•m^(-2)•s^(-1) PPF significantly improved plantlet growth and increased fresh weight in the red flower cultivar, Doritaenopsis Queen Beer 'Red Sky'. The results show that, for in vitro Phalaenopsis plantlets, LED monochromatic red light promoted cell division activity and root growth, but reduced chlorophyll synthesis. LED red and blue bichromatic light could activate carbohydrate metabolism and promote plantlet growth.