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Pulsed Laser-Driven Phase Transition in Biphasic Black Titania Nanostructures for Enhanced Cancer Therapy

Cheol Joo Moon, M.L. Aruna Kumari, Jayaraman Theerthagiri, Ahreum Min, Soohan Yun, Shana Balachandran, Madan Kumar Arumugam, Myong Yong Choi

2024ACS Applied Nano Materials12 citationsDOI

Abstract

An undemanding approach was employed to synthesize black titania (B-TiO 2 ) using nanosecond rotary pulsed laser irradiation without the use of a solvent. Herein, anatase titanium dioxide (TiO 2 ) was irradiated using a rotary nonfocused Nd:YAG laser with 1064 nm wavelength and 300 mJ pulse power, directing to B-TiO 2 formation. Simultaneously, a phase change from anatase to rutile was observed at different irradiation times. Various analytical techniques were employed to assess the crystalline phases, surface strictures, band edge positions, and optical properties of the prepared B-TiO 2 nanomaterials. A green model was anticipated to elucidate the ultrafast phase conversion process from anatase to rutile without solvent, considering the growth and nucleation of the rutile phase. The anticancer potential of obtained biphasic B-TiO 2 was explored along with the possible molecular mechanisms underlying its induction of apoptosis in the MDA-MB-231 breast cancer cell line. These defects play a pivotal role in promoting reactive oxygen species generation, ultimately leading to DNA damage and oxidative stress within cancer cells. Therefore, it controls the Bax/bcl2/caspase signaling pathway, inhibiting the cancer cells growth and inducing apoptosis. These results provide a basis for further research focused on evaluating B-TiO 2 as an efficient chemotherapeutic approach, which may eventually lead to translational studies and clinical trials aimed at completely eradicating breast cancer.

Topics & Concepts

Materials sciencePhase transitionNanostructureLaserPhase (matter)Laser therapyNanotechnologyChemistryOpticsCondensed matter physicsPhysicsOrganic chemistryLaser-Ablation Synthesis of NanoparticlesQuantum Dots Synthesis And PropertiesNanoplatforms for cancer theranostics
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