Journal Covers

Ionic Conduction Mechanism and Design of Metal–Organic Framework Based Quasi-Solid-State Electrolytes

August 3, 2022

This cover image demonstrates the critical role of the solvent in the ion motion of intrinsically anionic metal–organic framework (MOF)–based quasi-solid-state electrolytes (QSSEs). Using hybrid theoretical and experimental approaches, we have identified solvent-assisted hopping as the dominant pathway for Li⁺ conduction in such materials, exemplified by MOF-688. Read more »

Visualizing the Nanoscale Oxygen and Cation Transport Mechanisms during the Early Stages of Oxidation of Fe–Cr–Ni Alloy Using In Situ Atom Probe Tomography

July 12, 2022

Understanding the early stages of interactions between oxygen and material surfaces is beneficial for fields ranging from materials degradation to forensics and catalysis. In situ atom probe tomography (APT) is demonstrated to track the diffusion of oxygen and metal ions at nanoscale spatial resolution during the early stages of oxidation of a model Fe–Cr–Ni alloy. Read more »

Decoupling the metal–insulator transition temperature and hysteresis of VO₂ using Ge alloying and oxygen vacancies

June 11, 2022

The VO₂ metal–insulator transition underpins applications in thermochromics, neuromorphic computing, and infrared vision. Ge alloying is shown to expand the stability of the monoclinic phase to higher temperatures, and by suppressing the propensity for oxygen vacancy formation, renders the hysteresis of the transition exquisitely sensitive to oxygen stoichiometry. Read more »

Exploring Critical Synthetic Parameters for Nanoscale ε-Fe₂O₃ and Their Influence on Magnetic Behaviors

April 28, 2022

An intermediate polymorph of iron oxide, ε-Fe₂O₃, has attracted significant attention for potential applications in high-frequency mm-wave absorption and high-density magnetic recording. However, fabrication is still a challenge. Here, we identified critical reaction parameters to improve the phase purity and tested their effects. Read more »

Structural organization of the spongy mesophyll

March 31, 2022

Many leaves have two layers of photosynthetic tissue: the palisade and spongy mesophyll. The latter is not well characterized and often treated as a random assemblage of irregularly shaped cells. These results show that simple principles may govern the organization and scaling of the spongy mesophyll in many plants and demonstrate the presence of structural patterns associated with leaf function. Read more »

Enhancing the inherent catalytic activity and stability of TiO₂ supported Pt single-atoms at CeO_x–TiO₂ interfaces

March 21, 2022

Single atoms with atomically coordinated reaction centers are considered next-generation catalysts. However, there is concern about their thermodynamic vulnerabilities and whether their inherent catalytic nature is superior compared with that of larger nanoparticles. Here, we address the two controversies by a comparative study using two catalysts. Read more »

Biomineralization: Integrating mechanism and evolutionary history

March 11, 2022

In this review, Gilbert et al. develop a model for calcium carbonate biomineralization applicable to all phyla. Their model may help elucidate the key genetic components that drive biomineralization and offers insight into the consequences of global climate change on marine organisms. Read more »

Loss of biological control of enamel mineralization in amelogenin-phosphorylation-deficient mice

March 10, 2022

Amelogenin phosphorylation plays crucial roles in controlling structural, crystallographic, mechanical, and compositional characteristics of dental enamel. Thus, loss of amelogenin phosphorylation leads to a reduction in the biological control over the enamel mineralization process. Read more »

Programmable stiffness and stress–relaxation of cross-linked self-assembling peptide hydrogels

March 5, 2022

An AFM image representing a supramolecular hydrogel based on a cross-linked self-assembling peptide (SAP). Cross-linking allows for precise tuning of biomechanical properties, spanning the range of stiffness values found in the human central nervous system, pancreas, liver, lung, and skin tissues. The findings provide a new strategy helpful for soft tissue regeneration. Read more »

Dramatic Conformer-Dependent Reactivity of the Acetaldehyde Oxide Criegee Intermediate with Dimethylamine Via a 1,2-Insertion Mechanism

February 10, 2022

Acetaldehyde-oxide (CH₃CHOO) is an atmospherically pertinent reactive intermediate that exists in syn (right) and anti (left) conformational forms. Experiment and theory reveal that the reaction of anti with dimethylamine is several orders of magnitude faster than that of syn with dimethylamine, despite both reactions being energetically downhill. Read more »