In this work, the influence of C concentration to the performance of low temperature growth p-GaN is studied.Through analyses, we have confirmed that the C impurity has a compensation effect to p-GaN. At the same time we have found that several growth and annealing parameters have influences on the residual C concentration:(i) the C concentration decreases with the increase of growth pressure;(ii) we have found there exists a Ga memory effect when changing the Cp_2 Mg flow which will lead the growth rate and C concentration increase along the increase of Cp_2 Mg flow;(iii) annealing outside of metal–organic chemical vapor deposition(MOCVD) could decrease the C concentration while in situ annealing in MOCVD has an immobilization role to C concentration. In this work, the influence of C concentration to the performance of low temperature growth p-GaN is studied. Through analysis, we have confirmed that the C impurity has a compensation effect to p-GaN. At the same time we have found that several growth and annealing parameters have influences on the residual C concentration: (i) the C concentration decreases with the increase of growth pressure; (ii) we have found there exists a Ga memory effect when changing the Cp_2 Mg flow which will lead the growth rate (iii) annealing outside of metal-organic chemical vapor deposition (MOCVD) could decrease the C concentration while in situ annealing in MOCVD has an immobilization role to C concentration.