This comprehensive volume provides an in-depth overview of II-VI semiconductor materials and their application in sensors and radiation detectors. Focusing on materials and technology, the handbook covers fundamental properties, synthesis methods, and fabrication techniques for compounds such as cadmium telluride, zinc selenide, and mercury cadmium telluride. Readers will find systematic discussions on crystal growth, doping strategies, defect engineering, and surface passivation, all supported by detailed experimental data and theoretical models.

The text emphasizes the relationship between material composition, structural characteristics, and device performance, making it a valuable reference for researchers and engineers working in optoelectronics, nuclear instrumentation, and radiation detection. The handbook details the physicochemical mechanisms that govern sensor sensitivity and detector efficiency, including charge transport, recombination dynamics, and radiation hardness. It explains how material purity and stoichiometry directly influence signal-to-noise ratio and energy resolution.

Each chapter presents clear explanations of characterization techniques such as photoluminescence, Hall effect measurements, and deep-level transient spectroscopy. The content is structured to bridge the gap between laboratory research and practical implementation, offering actionable insights for optimizing detector design. The writing style is technical yet accessible, suitable for graduate students and professionals seeking a solid grounding in II-VI semiconductor technology.

This volume also addresses the practical aspects of device fabrication, from substrate preparation to contact metallization. It covers both single-crystal and polycrystalline forms, highlighting trade-offs between cost, scalability, and performance. The handbook includes case studies on X-ray and gamma-ray detectors, as well as infrared sensors, demonstrating real-world applicability.

With its focus on material processing and quality control, the book serves as a reliable guide for developing robust, high-performance sensors. The affordable price point makes this extensive reference an exceptional value for libraries, research groups, and individual scholars aiming to deepen their expertise in advanced electronic materials.