Browsing by Subject "Photothermal"

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    3D-printed, implantable alginate/CuS nanoparticle scaffolds for local tumor treatment via synergistic photothermal, photodynamic, and chemodynamic therapy
    (American Chemical Society, 2023-09-08) Çolak, B.; Cihan, M. C.; Ertaş, Yavuz Nuri
    A promising method for treating cancer is localized therapy, which mainly employs hydrogel-based delivery systems. Recently, the capability of 3D printing techniques has been revealed as a promising tool to tackle cancer. In this work, alginate (Alg)-based 3D-printed implantable scaffolds containing bovine serum albumin (BSA)-coated copper sulfide (CuS) nanoparticles, Alg-CuS/BSA, were fabricated for local breast cancer therapy and applied to inhibit tumor development through utilizing synergistic photothermal, photodynamic, and chemodynamic effects. The Alg-CuS/BSA scaffolds were flexible; however, their modulus was significantly lower than that of human breast tissues. Under 808 nm irradiation, the scaffolds demonstrated efficient photothermal, photodynamic, and chemodynamic effects both in vitro and in vivo via improving photothermal transduction and singlet-oxygen formation, and also as Fenton catalysts, the scaffolds produced hydroxyl radicals in the presence of H2O2 within the tumor microenvironment. Without the use of conventional anticancer drugs, the promising tumor treatment of implanted scaffolds can offer potential applications in local cancer treatment and prevent metastasis after surgical removal of tumors.
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    Synthesis of nanoparticles by laser ablation in liquid method and optical applications
    (2023-08) Taylan, Umut
    Pulsed laser ablation in liquids (PLAL) method is a fast, green, and straightforward method that can be used to synthesize pure nanoparticles free of ligands, capping agents, and waste products. Several types of nanoparticles such as metals, oxides, alloys, semiconductors, composite and compound nanoparticles with spherical or complex morphologies can be synthesized with PLAL method. In this thesis, AuCu nanoparticles for photovoltaic application, AgCu nanoparticles for tunable optical properties, CuS/Cu1.8S nanoparticles for photothermal and photoacoustic application, and (Y0.83Yb0.16Er0.01)2O3 nanoparticles for upconversion photoluminescence application are synthesized. The synthesized AuCu nanoparticles are used in organic solar cells and enhanced the photocurrent production, proven by the 21.4% increase in the power conversion efficiency. AgCu nanoparticles show composition and laser fragmentation dependent tunable surface plasmon resonance between 420 nm – 580 nm, giving 160 nm tunability. These nanoparticles also show complex morphologies with Janus nanoparticle and core-shell type configurations. Copper sulphide nanoparticles show a broad absorbance in the NIR region with absorbance peak at 1183 nm. Nanoparticles with 1 mg/mL concentration show a 52.2 °C temperature increase in 3 minutes of 3.23 W/cm2 1080 nm CW laser irradiation. Photoacoustic imaging experiments where copper sulphide nanoparticles are utilized show a significant contrast enhancement compared to ultrasonic imaging at 1 cm depth. The upconversion nanoparticles show an intense red emission at 651 nm from 980 nm laser irradiation and lowered green emission compared to the target material which shows nanoparticles produce more heat compared to the target which can be useful for photoluminescence – photothermal applications.