Lithium ion batteries(LIB) are efficacious electrochemical energy storage device. Graphite is the most commonly used anode for LIB because of its stability and low volume expansion. However, due to its relatively low theoretical capacity, the development of high-capacity anode material is indispensable. Layered ternary chalcogenide system, Zinc Indium Sulfide (ZnIn₂S₄), can be a promising alternative for LIB anode material. In₂S₃ has a layered structure with proven high theoretical capacity and ZnS has reversible lithium insertion/desertion with good stability. On the other hand, carbon-based materials have been widely introduced due to its excellent conductivity. From these features, composite of carbon and ZnIn₂S₄ could be a good anode material for LIB. In this work, ZnIn₂S₄/C nanocomposites are synthesized with KIT-6 as a hard template and tested as anode materials. We anticipate that this material may show good cycle ability, stability, and high rate performance.