Journal Covers

Sub-4 nm mapping of donor–acceptor organic semiconductor nanoparticle composition

April 7, 2023

We report, for the first time, sub-4 nm mapping of donor : acceptor nanoparticle composition in eco-friendly colloidal dispersions for organic electronics. This technology shows great promise for the optimization of organic semiconductor blends for organic electronics and photocatalysis and has further applications in organic core–shell nanomedicines. Read more »

The Identity and Chemistry of C₇H₇ Radicals Observed during Soot Formation

April 6, 2023

Recent work suggests that resonance-stabilized radicals may participate in chain reactions that lead to soot-particle formation, but their identities and chemistry are poorly understood. C₇H₇ is often observed in aerosol mass spectra and is generally assumed to be benzyl, the most thermodynamically stable C₇H₇ isomer. It has now been shown that the identities of these isomers are far more varied, and their chemistry is far more complex, than previously appreciated. Read more »

SO₂ Photodissociation at 193 nm Directly Forms S(³P) + O₂(³Σ_g^–): Implications for the Archean Atmosphere on Earth

March 30, 2023

Sulfur isotope patterns in ancient rock layers inform our understanding of Earth’s Archean atmosphere. Before the Great Oxygenation Event (~2.4 billion years ago), hard ultraviolet light penetrated into the Earth’s surface, photodissociating sulfur dioxide directly to S + O₂. This new product channel may help resolve discrepancies in the Earth’s evolutionary history. Read more »

Raman and Far-Infrared Synchrotron Nanospectroscopy of Layered Crystalline Talc: Vibrational Properties, Interlayer Coupling, and Symmetry Crossover

March 30, 2023

Talc is an electrical insulator and an excellent target for low-cost, heterostructure-based optoelectronic applications. Here, light-matter interactions and their consequences at the nanoscale-thickness limit are probed using Raman spectroscopy, near-field synchrotron infrared nanospectroscopy, and first-principles calculations. Read more »

Intrinsically Chiral Twist-Bend Nematogens: Interplay of Molecular and Structural Chirality in the N_TB Phase

March 14, 2023

Cartoon depiction of the formation of the heliconical chiral twist-bend nematic phase (N*_TB) from its constituent bent molecules. The presence of a single enantiomer of the chiral, lactate-based liquid crystal dimers biases the formation of helices with only one handedness, unlike in the conventional N_TB phase, observed for achiral molecules, for which the left- and right-handed helices are doubly degenerate. Read more »

Macromolecular organic matter in samples of the asteroid (162173) Ryugu

February 24, 2023

We investigated the macromolecular organic matter in samples of the asteroid Ryugu—brought to Earth by the Hayabusa2 spacecraft—measuring its elemental, isotopic, and functional group compositions along with its small-scale structures and morphologies. Analytical methods used included spectro-microscopies, electron microscopy, and isotopic microscopy. Read more »

A Study on the Reaction Mechanism of a Model Organic Cathode in Magnesium-Ion Batteries

February 16, 2023

Battery and analytical studies of a model benzoquinone-type cathode reveal reversible structural transformations driven by a new precedence of a unique dissolution/precipitation mechanism and raise the question regarding its prevalence in other organic cathode batteries. Read more »

Dirac Nodal Line in Hourglass Semimetal Nb₃SiTe₆

January 11, 2023

Hourglass fermion in an electronic band structure is protected by the nonsymmorphic symmetry of a layered semimetal Nb₃SiTe₆. Angle-resolved photoemission spectroscopy demonstrates the band features of an hourglass fermion in k-space, such as band crossings and nodal loops. Read more »

Enhanced low-temperature proton conductivity in hydrogen-intercalated brownmillerite oxide

December 8, 2022

Solid oxide materials typically need high temperatures to allow appreciable ion transport, limiting their flexibility as electrolytes for energy devices. Lu et al. now show unusually high proton conductivity in a hydrogenated oxide between 40 °C and 140 °C, which they attribute to ordered vacancy channels and high proton concentrations. Read more »

Structural Investigation of Therapeutic Antibodies Using Hydroxyl Radical Protein Footprinting Methods

December 1, 2022

Well-known high-resolution structural methods are often used to characterize antibody structures, but many require specialized sample preparation that may perturb antibody structure. We describe here the relatively new method of hydroxyl radical protein footprinting, a solution-state method that can provide structural and kinetic information on antibodies or antibody–antigen interactions useful for therapeutic antibody design. Read more »