Martin Mikulics, Andreas Winden, Joachim Mayer, H. Hardtdegen
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引用次数: 0
Abstract
LED devices are increasingly gaining importance in lithography approaches due to the fact that they can be used flexibly for mask-less patterning. In this study, we briefly report on developments in mask-free lithography approaches based on nano-LED devices and summarize our current achievements in the different building blocks needed for its application. Individually addressable nano-LED structures can form the basis for an unprecedented fast and flexible patterning, on demand, in photo-chemically sensitive films. We introduce a driving scheme for nano-LEDs in arrays serving for a singularly addressable approach. Furthermore, we discuss the challenges facing nano-LED fabrication and possibilities to improve their performance. Additionally, we introduce LED structures based on a hybrid nanocrystal/nano-LED approach. Lastly, we provide an outlook how this approach could further develop for next generation lithography systems. This technique has a huge potential to revolutionize the field and to contribute significantly to energy and resources saving device nanomanufacturing.
由于 LED 器件可灵活用于无掩模图案化,因此在光刻方法中的重要性日益增加。在本研究中,我们简要报告了基于纳米 LED 器件的无掩模光刻方法的发展情况,并总结了我们目前在其应用所需的不同构件方面取得的成就。可单独寻址的纳米 LED 结构可为按需在光化学敏感薄膜中进行前所未有的快速灵活图案化奠定基础。我们介绍了一种用于阵列纳米 LED 的驱动方案,该方案可用于单个可寻址方法。此外,我们还讨论了纳米 LED 制作所面临的挑战以及提高其性能的可能性。此外,我们还介绍了基于纳米晶体/纳米 LED 混合方法的 LED 结构。最后,我们展望了这种方法在下一代光刻系统中的进一步发展前景。这项技术具有巨大的潜力,将彻底改变这一领域,并为节约能源和资源的设备纳米制造做出重大贡献。
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