The chitin crystalline architecture on crabs were by far the most suitable biomaterials for searching in liquid crystals. Owing to its regularly orientations and could be observed under transmission electron microscopy. The work here aims to chitin which is the biopolymers in nature, together with crabs, squid bone, and ganoderma residue as our targets for experiments. We try to find out the position and arrangement of chloesteric liquid crystal under transmission electron microscopy. First, the crab was treated by 2N NaOH to hydrolyze the protein, dissolved the mineral phase in 2N HCl, dehydrated, embedded and cured in Epon812, the arced fingerprint pattern in chitin thus could be viewed via microtone ultracut (80nm). Microfibrillar fragments of purified crab chitin were prepared by hydrolysis in 3 M HCl at its boilong point (104°C), together with NaOH at various concentration. After discarding the acid by centrifugal washing and dialysis, an ultrasound treatment converts the residual product to a colloidal suspension stabilized by NH3+ charges. When dehydrated to a critical concentration, spontaneous formation of a two-phase equilibrium system occurs. The upper phase (lower concentration) is isotropic and the lower phase is anisotropic. The latter displays chiral nematic order and dries to a solid film which mimics the helicoid organization characteristic of the chitin microfibrils in the cuticle of arthopods.