Nature Communications
An open access, multidisciplinary journal dedicated to publishing high-quality research in all areas of the biological, health, physical, chemical and Earth sciences.
High-performance bifacial perovskite solar cells enabled by single-walled carbon nanotubes
Harnessing light’s dance, bifacial perovskite cells with carbon nanotube electrodes shine, boasting over 98% bifaciality and 36% power density. They promise a greener, cost-effective future with their feather-light, durable design.
Predicting multiple observations in complex systems
Forecasting future behaviors of complex systems is an important but still challenging issue. We aim to provide a data-driven approach, and hope to make some efforts for the prediction task.
Structurally Diverse Macrocycle Co-Crystals for Solid-State Luminescence Modulation
Organic co-crystals are useful in the fabrication of functional materials, but it is challenging to achieve structural diversity of co-crystals. Here, the authors report nine sets of macrocycle co-crystals with diverse structures and stoichiometric ratios giving different luminescence properties.
Optical Axes of Triclinic Crystals in Wanderland
Wandering of optical axes of van der Waals rhenium disulphide or diselenide are enabled by the unique disposition of excitons in their lattices and broken crystal symmetries that together lead to the decoupling of absorption and refraction dielectric permittivities.
Efficient, narrow-band, and stable electroluminescence from organoboronnitrogen-carbonyl emitter
We report a molecular-design strategy, i.e., hybridization of organoboron-nitrogen and carbonyl. OLEDs exploiting binary emitting layers achieve ultrapure emission, a maximum efficiency of over 40% with mild roll-off, and operational stability of LT95~ 137 h of the initial luminance at 1000 nits.
On-body detection of unamplified nucleic acid
Wearables have been an emerging wave of technology for continuous monitoring a wide range of biomarkers, but is often overlooked in nucleic acid detection. This study dives into a toolbox for highly sensitive nucleic acid recognition in vivo.