In our Vision for Material Innovation, we aim for precision in quantum dot sizes and advocate for heavy metal-free alternatives for environmental safety. We delve into ligand chemistry for robust stability and perfect single crystal synthesis for unmatched efficiency. Our ambition extends to pioneering scalable 2D materials, setting a new standard for flexible, futuristic applications. Join us in shaping a visionary future for materials.

Our Vision in Thin-film Innovation centers on crafting crack-free films, pivotal for durability and performance. We’re fine-tuning trap states to enhance electronic properties, pioneering flexible thin film techniques for adaptable applications, and mastering atom-level deposition for unmatched material precision. Explore the frontier of thin-film technology with us.

In our Vision for Device Innovation, we concentrate on optimizing energy band alignment for efficient carrier flow, enhancing carrier extraction to boost device performance, and mastering interfacial passivation to improve stability and reduce recombination losses. We’re also innovating in light extraction techniques and maximizing absorption efficiency, key for high-performance optoelectronic devices. Join us in redefining the future of device technology.

Our Vision in Chip Integration focuses on advancing imaging chips for ultra-high resolution and fast recognition, capturing intricate multi-dimensional details. Simultaneously, we’re pioneering photonic chips that leverage photons for computing, transcending traditional electronic limitations. Join us in shaping this innovative future.

Our Vision for tackling Degradation Mechanisms centers on in-depth material failure analysis through in-situ device performance technology and addressing structural aging with precise nanometer-level insights via in-situ GIXS. This approach is crucial for enhancing material durability and reliability, ensuring our innovations endure.Join us as we uncover the nanoscopic secrets to macroscopic durability.