Graphdiyne is a two-dimensional carbon nanomaterial synthesized artificially in 2010. Its outstanding performance is considered to have great potential in different fields. This article summarizes the work of graphdiyne in the sensing field by literature summary and bibliometrics analysis. The development of graphdiyne in the field of sensing has gone through a process from theoretical calculation to experimental verification. Especially in the last three years, there has been very rapid development. The theoretical calculations suggest that graphdiyne is an excellent gas sensing material, but there is little experimental evidence in this direction. On the contrary, graphdiyne has been widely reported in the field of electrochemical sensing. At the same time, graphdiyne can also be used as a molecular switch for DNA sequencing. Fluorescent sensors based on graphdiyne have also been reported. In general, the potential of graphdiyne in sensing still needs to be explored. Current research results do not show that graphdiyne has irreplaceable advantages in sensing. The bibliometric analysis used in this review also provides cooperative network analysis and co-citation analysis on this topic. This provides a reference for the audience wishing to undertake research on the topic. In addition, according to the analysis, we also listed the direction that which this field deserves attention in the future.

Graphdiyne是2010年人工合成的二维碳纳米材料，其优异的性能被认为在不同领域具有巨大潜力。本文通过文献综述和文献计量学分析总结了graphdiyne在传感领域的工作。石墨二炔在传感领域的发展经历了一个从理论计算到实验验证的过程。尤其是近三年来，发展非常迅速。理论计算表明石墨二炔是一种优良的气敏材料，但在这个方向上几乎没有实验证据。相反，石墨二炔在电化学传感领域已被广泛报道。同时，石墨二炔还可以作为DNA测序的分子开关。还报道了基于石墨二炔的荧光传感器。总的来说，石墨二炔在传感方面的潜力仍有待探索。目前的研究结果并未表明石墨二炔在传感方面具有不可替代的优势。本综述中使用的文献计量分析还提供了关于该主题的合作网络分析和共被引分析。这为希望对该主题进行研究的观众提供了参考。此外，根据分析，我们还列出了该领域未来值得关注的方向。本综述中使用的文献计量分析还提供了关于该主题的合作网络分析和共被引分析。这为希望对该主题进行研究的观众提供了参考。此外，根据分析，我们还列出了该领域未来值得关注的方向。本综述中使用的文献计量分析还提供了关于该主题的合作网络分析和共被引分析。这为希望对该主题进行研究的观众提供了参考。此外，根据分析，我们还列出了该领域未来值得关注的方向。