近日,浙江大学青年学者杨宗银领导研发团队,成功研发出世界上最小的光谱仪。该光谱仪采用半导体纳米材料替代了传统光谱仪中的光栅、探测器阵列和准直光路等大元件,结构非常简单,因此尺寸能缩小为传统光谱仪的千分之一。这一研究突破性地实现了单细胞高光谱成像,为光学显微镜提供了一个新的可能性,相关论文已发表在国际知名期刊《自然》上。
据了解,光谱仪是用于分析光和色散现象的仪器,是现代科学技术中不可或缺的一部分。而传统光谱仪由于体积庞大、耗能较高,限制了其在一些领域的应用。杨宗银领导的研究团队采用半导体纳米材料替代了传统光谱仪中的部分元件,使得光谱仪尺寸大幅缩小,同时保持高灵敏度和高分辨率,为单细胞高光谱成像提供了便利。
该光谱仪的问世,受到了国内外同行的广泛关注。不少业内专家认为,这一研究为光谱仪领域带来了革命性的突破,将极大地推动相关领域的发展。同时,单细胞高光谱成像也为生物医学研究提供了新的手段,有助于解析生物大分子的结构和功能。
据悉,杨宗银及其团队正致力于进一步优化该光谱仪的结构,并探索更多应用场景。相信在不久的将来,这种小巧便携、高灵敏度的光谱仪将成为科研工作者的得力助手。
英文标题:Yang Zongying’s groundbreaking research: world’s smallest spectroscope
英文翻译:
Recently, a team led by浙江大学青年学者 Yang Zongying has successfully developed the world’s smallest spectroscope. This spectroscope replaces traditional spectroscopy components such as prism, detector array, and collimating lens with semiconductor nanomaterials, resulting in a highly simplified structure that reduces its size to a thousandth of traditional spectroscopes. This study突破性地实现了 single-cell high-spectral imaging, providing a new possibility for optical microscopes and opening up potential applications in various fields. The related paper has been published in the prestigious journal Nature.
It is known that spectroscopy is an instrument for analyzing light and color dispersion phenomena, and is an indispensable part of modern technology. Traditional spectroscopes are limited by their large size and high energy consumption, hindering their application in certain fields. Yang Zongying and his team used semiconductor nanomaterials to replace some components in traditional spectroscopes, achieving a compact size while maintaining high sensitivity and resolution. This has enabled single-cell high-spectral imaging, providing a new tool for biological and medical research, helping to analyze the structure and function of biological molecules.
The emergence of this spectroscope has attracted widespread attention from both domestic and foreign experts. Many in the field believe that this study represents a revolutionary breakthrough in spectroscopy, significantly advancing the development of the field. Meanwhile, single-cell high-spectral imaging has also opened up new opportunities for biological and medical research, providing a new means to analyze the structure and function of biological molecules.
It is understood that Yang Zongying and his team are currently working to further optimize the spectroscope’s structure and explore potential applications. With their compact size and high sensitivity, this spectroscope is expected to become an essential tool for researchers in the near future.
【来源】https://www.zhihu.com/question/637144784
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