Bromine-Enhanced Organic Materials for X-ray Sensors: Unveiling the Potential of Small Molecules and Polymers through Material Design and Film Fabrication
Rokas Dobužinskas, Andrius Poškus, Vygintas Jankauskas, Mindaugas Viliūnas, Egidijus Kamarauskas, Marytė Daškevičienė, Vytautas Getautis, Kęstutis Arlauskas, Darius Abramavičius
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Abstract
Organic X-ray sensors are a promising new class of detectors with the potential to revolutionize medical imaging, security screening, and other applications. However, the development of high-performance organic X-ray sensors is challenged by low sensitivity. This paper reports on the development of nine X-ray sensors based on new organic materials. It is demonstrated that the incorporation of bromine atoms into the sidechains of carbazolyl-containing organic molecules significantly enhances their X-ray sensitivity. This research suggests that incorporating a variety of high-atomic-number chemical elements into well-established organic semiconductors is a promising strategy for designing efficient X-ray sensor materials.
有机 X 射线传感器是一类前景广阔的新型探测器,有望彻底改变医疗成像、安检和其他应用。然而,由于灵敏度低,高性能有机 X 射线传感器的开发面临挑战。本文报告了九种基于新型有机材料的 X 射线传感器的开发情况。研究表明,在含咔唑基有机分子的侧链中加入溴原子可显著提高其 X 射线灵敏度。这项研究表明,在成熟的有机半导体中加入各种高原子序数的化学元素,是设计高效 X 射线传感器材料的一种很有前途的策略。
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