| Materials for energy harvesting: At the forefront of a new wave |
42 |
| Ferroelectric hafnium oxide for ferroelectric random-access memories and ferroelectric field-effect transistors |
34 |
| Piezotronics and piezo-phototronics with third-generation semiconductors |
29 |
| NOMAD: The FAIR concept for big data-driven materials science |
27 |
| Lead-free piezoelectricsThe environmental and regulatory issues |
26 |
| Lead-free piezoceramics: Status and perspectives |
24 |
| Multicaloric materials and effects |
21 |
| Relaxor-ferroelectric transitions: Sodium bismuth titanate derivatives |
20 |
| Nano-microstructural control of phonon engineering for thermoelectric energy harvesting |
19 |
| Shifting the phase boundary: Potassium sodium niobate derivates |
18 |
| Applications of lead-free piezoelectric materials |
18 |
| Nanoporous metal by dealloying for electrochemical energy conversion and storage |
17 |
| Architectural design and fabrication approaches for solid-state batteries |
17 |
| Theory of piezotronics and piezo-phototronics |
17 |
| Magnetoelectric magnetic field sensors |
16 |
| Dealloyed nanoporous materials with interface-controlled behavior |
16 |
| Polymer and composite electrolytes |
15 |
| Pattern formation during electrochemical and liquid metal dealloying |
14 |
| Magnetocaloric materials for refrigeration near room temperature |
13 |
| Mechanical behavior of nanocomposites |
12 |
| Predictive modeling and design rules for solid electrolytes |
12 |
| Piezotronic modulations in electro- and photochemical catalysis |
12 |
| Future of dynamic random-access memory as main memory |
12 |
| On the topological, morphological, and microstructural characterization of nanoporous metals |
11 |
| Wearable and flexible thermoelectrics for energy harvesting |
11 |
| Interface-driven mechanisms in cubic/noncubic nanolaminates at different scales |
11 |
| Dual-stimulus magnetoelectric energy harvesting |
10 |
| Dissipation of radiation energy in concentrated solid-solution alloys: Unique defect properties and microstructural evolution |
10 |
| Materials synthesis in a bubble |
9 |
| Nanoporous metals by alloy corrosion: Bioanalytical and biomedical applications |
9 |
| Caloric effects in ferroic materials |
9 |
| Electrocaloric effects in multilayer capacitors for cooling applications |
9 |
| Quantum materials for thermoelectricity |
9 |
| Nanomaterials for the water-energy nexus |
9 |
| The fracture mechanics of biological and bioinspired materials |
9 |
| Piezo-phototronic effect on optoelectronic nanodevices |
9 |
| Metastability alloy design |
9 |
| Piezophotonics: From fundamentals and materials to applications |
9 |
| Voltage-controlled magnetoelectric memory and logic devices |
9 |
| Data-driven discovery of formulas by symbolic regression |
8 |
| Insights into fundamental deformation processes from advanced in situ transmission electron microscopy |
8 |
| Frontiers of solid-state batteries |
8 |
| Strategies for accelerating the adoption of materials informatics |
8 |
| Nanomaterials-based flexible and stretchable bioelectronics |
8 |
| Piezotronic sensors |
8 |
| Piezotronic materials and large-scale piezotronics array devices |
8 |
| Phase-change materials: The view from the liquid phase and the metallicity parameter |
8 |
| Phase-change materials in electronics and photonics |
8 |
| Mechanical response of nanoporous metals: A story of size, surface stress, and severed struts |
8 |
| Materials for heat-assisted magnetic recording |
8 |
