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Microwave-Mediated Synthesis of Lead-Free Cesium Titanium Bromide Double Perovskite: A Sustainable Approach

Emmanuel Reyes‐FrancisInstitute of Advanced Materials (INAM), Universitat Jaume I, Av. Sos Baynat, s/n, Castelló de la Plana 12071, SpainCarlos Echeverría‐ArrondoInstitute of Advanced Materials (INAM), Universitat Jaume I, Av. Sos Baynat, s/n, Castelló de la Plana 12071, SpainDiego EsparzaUnidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Jardín Juárez 147, Zacatecas Centro, C.P. 98000, Zacatecas 98000, MexicoTzarara López-LukeInstituto de Investigación en Metalurgia y Materiales, Universidad Michoacana de San Nicolás de Hidalgo, Edificio U, Ciudad Universitaria, Morelia, Michoacán C.P. 58030, MexicoTatiana Soto‐MonteroMESA+ Institute for Nanotechnology, University of Twente, Enschede 7500 AE, The NetherlandsMonica Morales‐MasisMESA+ Institute for Nanotechnology, University of Twente, Enschede 7500 AE, The NetherlandsSilver‐Hamill Turren‐CruzDepartment of Physical Chemistry, Polish Academy of Sciences, Warsaw 01-224, PolandIván Mora‐SeróInstitute of Advanced Materials (INAM), Universitat Jaume I, Av. Sos Baynat, s/n, Castelló de la Plana 12071, SpainBeatriz Julián‐LópezInstitute of Advanced Materials (INAM), Universitat Jaume I, Av. Sos Baynat, s/n, Castelló de la Plana 12071, Spain
2024en
ABI

Annotatsiya

Theoretical studies have identified cesium titanium bromide (Cs2TiBr6), a vacancy-ordered double perovskite, as a promising lead-free and earth-abundant candidate to replace Pb-based perovskites in photovoltaics. Our research is focused on overcoming the limitations associated with the current Cs2TiBr6 syntheses, which often involve high-vacuum and high-temperature evaporation techniques, high-energy milling, or intricate multistep solution processes conducted under an inert atmosphere, constraints that hinder industrial scalability. This study presents a straightforward, low-energy, and scalable solution procedure using microwave radiation to induce the formation of highly crystalline Cs2TiBr6 in a polar solvent. This methodology, where the choice of the solvent plays a crucial role, not only reduces the energy costs associated with perovskite production but also imparts exceptional stability to the resulting solid, in comparison with previous reports. This is a critical prerequisite for any technological advancement. The low-defective material demonstrates unprecedented structural stability under various stimuli such as moisture, oxygen, elevated temperatures (over 130 °C), and continuous exposure to white light illumination. In summary, our study represents an important step forward in the efficient and cost-effective synthesis of Cs2TiBr6, offering a compelling solution for the development of eco-friendly, earth-abundant Pb-free perovskite materials.

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