Carbon nanodots (CNDs) with high photothermal conversion efficiency are considered as emerging nanomaterials for advanced biomedical applications attributing to their high biocompatibility, low-cost, and unique photophysical properties. In previous work, supra-CNDs are synthesized exhibiting high absorption in the near-infrared (NIR) region and good NIR photothermal conversion performance. In this work, supra-CNDs are explored as a photothermal agent for photothermal therapy (PTT) and a contrast agent for photoacoustic (PA) imaging, respectively. As a result, in vivo tumor PTT is realized under 655 nm laser irradiation via intratumor injecting supra-CNDs. In vivo PA imaging reveals that supra-CNDs can accumulate in the tumor tissue via the blood circulation after intravenous injection. Moreover, in vivo PTT is conducted after intravenous injection and subsequent tumor accumulation of supra-CNDs, and the lives of mice are prolonged due to the tumor growth inhibition after PTT. These attractive properties indicate that the supra-CNDs can be used as biomedical agents for PA imaging and tumor therapy.