Themed collection Nanoscale Horizons Emerging Investigator Series

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Pengzhan Sun from the University of Macau, China.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Leslie Schoop from Princeton University, USA.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Baisheng Sa from Fuzhou University, China.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Shalini Singh from the University of Limerick, Ireland.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Ahu Gümrah Dumanli-Parry from the University of Manchester, UK.

Our Emerging Investigator Series highlights exceptional work by early-career nano researchers. This editorial features an interview with our latest Emerging Investigators, Dr Luciano Colazzo, Dr Christoph Wolf and Dr Yujeong Bae from the IBS Center for Quantum Nanoscience, South Korea.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Saptarshi Das from Pennsylvania State University, USA.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Ran Long from the University of Science and Technology of China, China.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigator, Dr Kayoko Kobayashi from Kyoto University, Japan.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our latest Emerging Investigators, Dr Sukjoon Hong and Dr Joonmyung Choi from Hanyang University, South Korea.

Our Emerging Investigator Series highlights exceptional work by early-career nanoscience and nanotechnology researchers. This editorial features an interview with our first Emerging Investigator, Dr Huiyuan Zhu from Virginia Tech, USA.

Our Emerging Investigator Series will highlight exceptional work published in Nanoscale Horizons by early-career researchers working in nanoscience and nanotechnology.

We show that simple chemical exfoliation methods can be used to exfoliate non-van der Waals, chain-containing compounds to 1D nanoribbons. After this process, they still retain magnetic behavior.

Experiments have shown that nanoscale ripples in a graphene membrane exhibit high catalytic selectivity toward hydrogen dissociation over other reactions involving hydrogen.

This study revealed the transition from Schottky to Ohmic/quasi-Ohmic contacts within the metal–MoSSe junctions and employed machine learning to predict the Schottky barrier, thus facilitating the realization of Ohmic contact in Janus MoSSe devices.

Mixed ionic-electronic conducting NaSbS₂ NCs with different sizes (50 to 90 nm) and shapes (cube, quasi-spherical cuboctahedra and truncated cubes) were synthesized using a colloidal approach by systematically changing the reaction parameters.

A biocompatible and edible colorimetric timer is obtained by exploiting the dynamic colour changes of the cholesteric liquid crystalline mesophases of hydroxypropyl cellulose (HPC) in aqueous suspensions.

We demonstrate fabrication of a surface-supported array of VOPc with controlled spin-spin distance, electronic decoupling from the substrate, and individual addressability to realize molecular qubit platforms interfaceable to solid state devices.

Hardware Trojans (HTs) have emerged as a major security threat for integrated circuits (ICs) owing to the involvement of untrustworthy actors in the globally distributed semiconductor supply chain.

The Cu and Si co-doping could rationally regulate the electronic structure of TiO₂ nanosheets and maneuver the reactive oxygen species for methane activation, which achieves significant photocatalytic methane conversion into ethane.

Atomic-scale dent structures on the surfaces of cellulose nanofibers were detected. These dent parts constituted at least 30–40% of the total length of the dispersed nanofibers, and deep dents induced the kinking and fragmentation of nanofibers.

A nanomechanical design method for the laser transfer process of a single AgNW is proposed. The nonlinear mechanical behavior of AgNWs with various geometric conditions is fully characterized through MD simulations and experiments.

We report the proof-of-concept design of interfacial sites with a selectivity-governing and hydrogen evolution reaction-suppressing domain (Bi) and an electrokinetic-promoting domain (Cu₂S) for efficient CO₂ electroreduction to formate.