Themed collection Research presented at the International Conference on Emerging Advanced Nanomaterials (ICEAN) 2018

A comprehensive review on polyoxometalate-based electrochromic materials and their applications in electrochromic devices.

This review provides a comprehensive overview of advances in the last two decades in the physical-organic studies of molecular thermoelectrics.

Multivalent metal ion hybrid capacitors are overviewed from the angle of design concept, configuration, electrochemical behavior and energy storage mechanism.

Black phosphorus quantum dots exhibit an impressive catalytic activity for oxygen evolution reaction.

We prepared carbon dots (CDs) via a sustainable, low-cost synthetic route employing eggplant biomass.

Field's metal particles synthesised by mechanical agitation exhibit peculiar core–shell structure and functionality.

Green catalytic synthesis of benzimidazoles using Cu metallovesicles as nanoreactors.

Ge–Sb–Te (GST) phase change materials exhibit a metal-to-insulator transition and therefore are expected to be useful for a variety of terahertz wave applications in addition to their primary application in optical and electrical memory devices.

Liquid metals can offer extraordinary properties for application in the field of sensors, yet their potential has not been fully realised.

A thermophoretically driven Au aerosol deposition process is used for the self-assembly of thin films consisting of plasmonic nano-islands (NIs) with a controllable and highly reproducible degree of disorder resulting in long-range periodicity with self-similar properties and stochastically distributed hot-spots, benefitting their applications as SERS substrates.

The protein corona of nanodiamonds is dominated by low molecular weight proteins and is largely independent of surface chemistry. The pre-incubation of nanodiamonds in serum and the formation of a protein corona decrease the production of reactive oxygen species, increasing the cell viability of macrophages.

New small molecules based on 9,9-bis(4-diphenylaminophenyl)fluorene functionalized with triphenylamine moieties are developed for use as dopant-free hole transporting materials (HTMs) in planar inverted perovskite solar cells. Power conversion efficiencies (PCE) as high as 17.1% are obtained with good stability.

Dirac cone in metal-semiquinoid frameworks.

Hierarchical porous catalysts offer highly connected architectures for enhanced transport of bulky molecules and the sustainable manufacturing of bio-derived platform chemicals and fuels.

Zn–Ni–Co ternary hydroxide nanoarrays with a controlled morphology are used as the cathode material for supercapacitors for the first time.

The hybridization of inorganic solids with fullerene (C₆₀) nanosheets provides an effective way to explore high-performance hybrid-type electrode materials.

We report a room-temperature synthesis method to produce graphene oxide with thermally-labile oxygen functional groups.

A series of novel pristine hole-transporting materials based on a quinacridone (QA) dye have been developed and used to fabricate mesoporous perovskite solar cells for the first time achieving an efficiency of 18.2%.