In recent years, nanosensor technology has experienced a rapid development because of the extensive scientific efforts in understanding of nanoscale phenomena and achieving innovative nanofabrication techniques. Carbon-based nanomaterials (CBNs), such as fullerenes, graphene, nanodiamonds, carbon nanotubes, and carbon nanodots, have recently gained considerable attention among scientific communities due to their unique chemical and physical properties. Thanks to intensive research efforts, the CBNs have found their place in a wide range of applications. These CBNs stand out as novel nanosensors due to their supreme performance in detecting heavy metal ions, gas molecules, food additives, antibodies, and toxic pesticides, as well as reporters for bioimaging.

This special issue, to be published in 2017, addresses recent progress in the synthesis, characterization, structure-property relationships and applications of CBNs as novel nanosensors. We are confident that the accrual of these contributions will facilitate the applications of CBNs as innovative nanosensors in meeting the urgent needs for environmental monitoring, food safety control, healthcare, homeland security, and so forth. We have selected five papers, representing four different frontiers of this topic: graphene, silver nanoparticles, carbon nanotubes, and carbon nanodots.

J. Wang et al. reported the preparation of graphene oxide/cellulose nanofibril hybrid aerogel for adsorptive removal of four kinds of antibiotics, achieving the removal percentages of 81.5%, 79.5%, 79.1%, and 73.9% for doxycycline, chlortetracycline, oxytetracycline, and tetracycline, respectively. S. Xiong et al. reported the preparation of a leaf-like BiVO4-reduced graphene oxide composite (BiVO4-rGO) and demonstrated that the BiVO4-rGO exhibited higher photocatalytic capacity towards the degradation of rhodamine B dye under visible-light irradiation compared with pure BiVO4.

H. Younes et al. studied the effect of saline solution on the electrical response of single wall carbon nanotubes-epoxy nanocomposites and found that a drop of saline solution on the surface of the nanocomposites film increases the resistance by 50%.

L. Yumei et al. reported a rapid biosynthesis method of silver nanoparticles based on flocculation and reduction of an exopolysaccharide from Arthrobacter sp. B4 and investigated its antimicrobial activity and phytotoxicity.

Finally, Q. Hu et al. presented a comprehensive review on characterization and analytical separation of fluorescent carbon nanodots, which summarized the most commonly used techniques for the characterization and analytical separation of carbon nanodots and concludes with an outlook towards the future development in this area.

As editors of this special issue, we would like to express our gratitude to all the authors for their valuable high-quality contributions. We hope that the readers will find interesting information in the carefully selected and thoroughly reviewed articles. We look forward greatly to their future success.

Qin Hu
Evan K. Wujcik
Antonios Kelarakis
Jobin Cyriac
Xiaojuan Gong