Fig. 4From: 3D printed hydrogel scaffolds combining glutathione depletion-induced ferroptosis and photothermia-augmented chemodynamic therapy for efficiently inhibiting postoperative tumor recurrencePhotothermal performance of Gel-SA-CuO hydrogel scaffolds. Temperature changing curves (a) and the average equilibrium temperatures (b) of Gel-SA-CuO scaffolds exposed to NIR laser at 0.6Â W/cm2 under dry conditions. Temperature changing curves (c) and the average equilibrium temperatures (d) of Gel-SA-CuO scaffolds exposed to NIR laser at 1.3Â W/cm2 under wet conditions. Temperature changing curves (e) and the average equilibrium temperatures (f) of Gel-SA-4CuO scaffolds under dry conditions exposed to different power density of NIR laser. Temperature changing curves (g) and the average equilibrium temperatures (h) of Gel-SA-6CuO scaffolds under wet conditions exposed to different power density of NIR laser. i The representative photothermal images of Gel-SA-6CuO scaffolds exposed to NIR laser at 1.3Â W/cm2 at indicated time points under wet conditionsBack to article page