This study aimed at fabricating a new type temperature sensor device by taking advantages of electrical conductivity of bamboo charcoal powder and temperature sensibility of NIPAAm hydrogel. The resistance of such a composite device will be affected by temperature. Bamboo charcoal powders were first subjected to oxygen plasma treatment. The treated bamboo charcoal powders were then UV graft polymerization with N-isopropylacrylamide (NIPAAm) monomer solution to be immobilized on the electrode which had previously been modified with plasma of tetramethyltin (TMT) and O2 gas mixture. Using simple environment test to measure resistance, the LCST of bamboo charcoal powders mixed with NIPAAm hydrogel was found to be 31°C. At ambient temperatures higher than LCST, the electrode resistance decreases. The surface morphology of composite hydrogel was observed by SEM.