Themed collection Horizons Community Board collection: new trends in energy storage and harvesting

As a member of graphene analogs, metallenes are a class of two-dimensional materials with atomic thickness and well-controlled surface atomic arrangement made of metals or alloys.

Integration of several functionalities into one isolated electrochemical body is necessary to realize compact and tiny smart electronics.

The correlation between geometrical parameters of various novel electrode structures and the corresponding mechanical properties are assessed in this review, which provides inspiration for their applications in future flexible energy storage devices.

This review focus on the rational design of the highly reversible zinc anode for high-performance aqueous zinc-ion batteries. The design concepts are expected to be applied to other types of high-performance aqueous energy storage systems.

Recent challenges of layer-structured cathodes for sodium-ion batteries and their corresponding structural and compositional modification strategies have been comprehensively studied in this review aiming at high-performance battery technology.

Utilizing wood waste to produce structural materials that possess both radiative cooling and photothermal conversion properties.

This work first reveals the regulation and mechanism of surface plasmon resonance on ion transport in nanofluidic membranes and explores the potential of solar-osmotic energy conversion based on cellulose nanofiber/molybdenum oxide heterogeneous nanofluidic membranes.

Due to the combination of interfacial polarization and depolarization, the energy density of BCZT-based lead-free ferroelectric reached 8.03 J cm⁻³ at only 425 kV cm⁻¹. High energy density with extremely low energy consumption was achieved.

We report a novel synthetic approach combining laser-scribing and calcination to make a pseudocapacitive V₂O₅/laser-scribed graphene composite. The unconventional synthesis gives rise to high-performance.

Durable and dissolution-free 3D printed VS₂ electrodes for water-in-salt electrolyte Zn-ion batteries were reported.

Binder-free Ge/CNT electrodes are prepared via two-step EPD on the current collector. The electrodes exhibited superior long-term cycle stabilities & rate capabilities, suggesting an effective approach to fabricating battery electrodes in LIBs.

The asymmetric gradient design of the polymer-based composite dielectric can inhibit carrier injection and transport simultaneously, which significantly improves the energy density at room temperature and high temperature.

3D nitrogen-doped hierarchical porous graphitic carbon cathode and subnanometric tin oxide nanocrystals anode materials are derived from Co–Zn mixed metal–organic frameworks to achieve high-performance Li-ion and Na-ion hybrid energy storage devices.

A high performance flexible triboelectric nanogenerator using oxidation resistant pure copper nanowire electrodes.

Flexible solid-state Zn–air batteries with CoS_1−δ/SnS_2−δ and CBCs demonstrate a high energy density of 256 Wh kg_cell⁻¹ including all active and inactive components, high operating rates of 50 to 100 mA cm⁻², and a temperature range of +80 to −40 °C.

A cationic bakelite–viologen polymer with counter-balancing hydroxide ions serves as a solid-state electrolyte for zinc–air battery.

The transpiring wood is able to self-regulate indoor climate resulting in improved living comfort and substantial energy savings. The material sources and the fabrication process of transpiring wood also meet sustainability criteria.

In situ anodic oxidation strategy is demonstrated to fabricate flexible long-life and high-capacity aqueous zinc-ion batteries adopting a 3D N-doped/defect-rich V₂O_5−x·nH₂O nanosheets as fibrous cathodes and Zn nanosheets arrays as the anode.

The severe kinetic issues and interfacial characteristics of CF_x can be ameliorated by GDY encapsulation with electronic structure modulation, create stable electron–ion transport channels and ameliorate interfacial characteristics. The rate performance is effectively enhanced.

A novel UiO-66-F₄ nanosheet MOFs is reported for piezocatalytic water splitting, realizing a high H₂ evolution rate of 178.5 μmol g⁻¹ within 5 h under ultrasonic mechanical vibration (110 W, 40 kHz).

A conductive framework embedded with cobalt-doped vanadium nitride for enhanced chemisorption and catalytic effects of polysulfides.