RSC Advances  

PANI was successfully grown in situ on the surface of MXene derived from CDP. The composite exhibited a good specific surface area and high specific capacitance.

Carbon-based perovskite solar cells (PSCs) have emerged as a hopeful alternative in the realm of photovoltaics.

In recent years, flexible conductive materials have attracted considerable attention for their potential use in flexible energy storage devices, touch panels, sensors, memristors, and other applications.

Supramolecular metallogels with Tb(III)- and Eu(III)-ions, formed using benzene-1,3,5-tricarboxylic acid, display remarkable stability at room temperature. They hold promise for use in electronics, notably as reliable ambient Schottky barrier diodes.

Insoluble polymerized organic electrode is developed and wrapped in graphite sheets, which possesses low-impedance and realized a cycling life of over 1500 cycles. This work provides insights for exploring high-performance organic cathodes.

This study investigates the characteristics of Ba_0.67Ni_0.33Mn_1–xFe_xO₃ perovskite under varying Fe doping levels at the Mn-site (x = 0, 0.2). X-ray diffraction confirm the material's consistent structure, with Fe³⁺ ions substituting Mn³⁺ ions while maintaining identical ionic radius.

The frequency and temperature-related dielectric relaxation and electrical conduction mechanisms in potassium-doped CaFe₂O₄ oxide ceramic were investigated in this study throughout a temperature range of 313–673 K.

In this study, we find electric-field modulated energy transfer in phosphorescent material- and fluorescent material-codoped polymer that has never been reported.

Co–ZnO based memristors for Biological tactile receptor.

Incorporation of fluorine atoms in conjugated polymers leads to an increase in charge mobility and dielectric constant, increasing the P_diss value and power conversion efficiency and open circuit voltage of polymer bulk heterojunction photovoltaic cells.

The structural, electronic, mechanical, and optical characteristics of barium-based halide perovskite Ba₃SbI₃ under the influence of pressures ranging from 0 to 10 GPa have been analyzed using first-principles calculations for the first time.

With better phase separation in film morphology, regioisomeric non-fullerene acceptor TzS-S shows 1.5 times higher PCE and 20 times greater electron mobilities than TzN-S, indicating the role of isomeric conformations in photovoltaic performance.

P-doped silicon nanocrystals with an average diameter of 2–3 nm are formed by using KrF pulsed excimer laser irradiation method. The dark conductivity as high as 25.7 S cm⁻¹ can be obtained in P-doped nc-Si films after laser irradiation.

A simple, easy-to-operate, and green route was developed to fabricate graphene-AgNPs/lignocellulose electrothermal film. Impressively, an outstanding steady-state temperature of 214 °C under 7 V was attained with 20 wt% graphene-AgNPs.

Metallic perovskites have advantageous optical and electrical properties, making them a valuable class of semiconductors for the manufacturing of solar cells.

Focus on the progress of electrode materials for supercapacitors using composite materials based on CPs, metal oxide NPs, and CNTs. Both electrolyte-based and electrolyte-free supercapacitors are also discussed in detail.

Solid inorganic electrolyte materials are fundamental components for constructing all-solid-state sodium-ion batteries.

This work highlights the importance of controlling grain boundary migration during film growth for hole transport in CuI films.

LiNbO₃ is used to prepare a piezoelectric pressure sensor and its sensitivity is significantly improved via heterogeneous integration.

Supercapacitors (SCs) have emerged as attractive energy storage devices due to their rapid charge/discharge rates, long cycle life, and high-power density.

Three new blue materials, TPI-InCz, PAI-InCz, and CN-PAI-InCz, have been developed. Among the three materials, CN-PAI-InCz showed the highest external quantum efficiency of 3.31% with fast hole mobility of 1.50 × 10⁻³ cm² V⁻¹ s⁻¹.

The first report of conductive recycled polyethylene terephthalate glycol (rPETg) for additive manufacturing and electrochemical applications is reported herein.

As the width changes, some new carbon based nanoribbons transition from semiconductors to metals and an obvious NDR characteristic can be found in designed devices.

Enhancing the end group hydrophobicity leads to improved ambient stability of solution-processed n-type OFETs.

We investigated the role of gate electrodes in solution-gated graphene field-effect transistors for sensing free chlorine. Graphene and boron-doped diamond exhibit suitable electrochemical properties for gate electrodes.