Hemocompatible Functionalized Hydrogen Substituted Graphdiyne Based Highly Durable Biosensor for Liver Cancer Detection

Abstract: Present work focuses on the development of a highly durable biosensor for liver cancer (LC) biomarker (Annexin A2; ANXA2) detection. In this work, we have modified hydrogen substituted graphdiyne (HsGDY) using an organofunctional silane [3-(aminopropyl)triethoxysilane (APTES)], leveraging the opposite surface polarities on HsGDY and APTES to fabricate a highly hemocompatible functionalized nanomaterial matrix. The high hemocompatibility of APTES functionalized HsGDY (APTES/HsGDY) allows long-term stabilized im… Show more

“…However, their clinical detection remains a great challenge due to their low content and highly similar gene sequences. Currently, the reported methods still have inherent shortcomings, and therefore new detection methods are urgently needed. , …”

Current Advances in the Synthesis, Properties, and Biomedical Applications of Two-Dimensional Graphdiyne: A Review

“…However, their clinical detection remains a great challenge due to their low content and highly similar gene sequences. Currently, the reported methods still have inherent shortcomings, and therefore new detection methods are urgently needed. , …”

Current Advances in the Synthesis, Properties, and Biomedical Applications of Two-Dimensional Graphdiyne: A Review

Properties, Synthesis and Emerging Applications of Graphdiyne: A Journey Through Recent Advancements

Air-brush spray coated Ti3C2-MXene-graphene nanohybrid thin film based electrochemical biosensor for cancer biomarker detection