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Pure Blue Organic Light‐Emitting Diodes
In article number 2107574, Jeong‐Hwan Lee, Yun‐Hi Kim, and co‐workers use a strategic substitution of the bulky groups to effectively suppress the intermolecular interaction and the formation of isomers in mBP‐DABNA‐Me. Therefore, the mBP‐DABNA‐Me–based organic light‐emitting diode exhibits an efficiency of 24.3% with a pure blue emission, color‐coordinate of...
The immoderate use of pesticides in the modern agricultural industry has led to the pollution of water resources and ultimately threatens the human body. Herein, two metal–organic frameworks (MOFs), namely {[Zn(tpt)2·2H2O]}n (Zn1) and {[Zn2(tpt)2(bdc)]}n (Zn2), (Htpt = 5‐[4(1H‐1,2,4‐triazol‐1‐yl)]phenyl‐2H‐tetrazole), respectively, are constructed as smart materials for visual and on‐site detection...
Gold–copper (Au‐Cu) Janus nanostructures (Au‐Cu Janus NSs) are successfully prepared using N‐oleyl‐1,3‐propanediamine as capping agent and Cu(acac)2 as the precursor in a typical seeded growth strategy. By preferably depositing Cu atoms on one side of concave cubic Au seeds, the Cu part gradually grows larger as more Cu precursors are added, making the size tuning feasible in the range of 74–156 nm...
Layered Ni‐rich lithium transition metal oxides are promising cathode materials for high‐energy‐density lithium‐ion batteries. These cathodes, however, suffer from rapid performance decay under high‐voltage operation. In this work, the electrochemical properties and structural evolution of the LiNi0.8Mn0.1Co0.1O2 (NMC811) cathode upon high‐voltage cycling are investigated. The results show that the...
Lignin colloidal spheres (LCSs) are promising biomaterials for application in drug storage and delivery, pollutant adsorption, and ultraviolet protection due to their biocompatibility, amphiphilicity, and conjugated structure. However, wide size distribution of LCSs greatly limits their performances, especially in many precise and advanced applications. Herein, the fabrication of monodispersed LCSs...
Calcium‐overload cancer therapy has gained more and more attention owing to its good therapeutic efficacy with low side effect. However, conventional calcium‐overload therapy is achieved by introducing an additional calcium element into the tumor site by nanomedicines, which may also lead to the calcium‐overload of normal organs, causing an undesirable side effect. To address such issues, capsaicin‐decorated...
High overpotentials required to cross the energy barriers of both hydrogen and oxygen evolution reactions (HER and OER) limit the overall efficiency of hydrogen production by electrolysis of water. The rational design of heterostructures and anchoring single‐atom catalysts (SAC) are the two successful strategies to lower these overpotentials, but realization of such advanced nanostructures with adequate...
High‐valence metal‐doped multimetal (oxy)hydroxides outperform noble metal electrocatalysts for the oxygen evolution reaction (OER) owing to the modified energetics between 3d metals and high‐valence dopants. However, the rational design of sufficient and subtle modulators is still challenging. With a multimetal layered double hydroxide (LDH) as the OER catalyst, this study introduces a series of...
Adhesion of single cells is the foundation of manifold cellular behaviors and life processes. However, investigating the function of a specific cell is still challenging due to deficiency of adhesion or interference from surrounding cells. Herein, an open microfluidic system is reported for culturing adherent single cells, implemented by a micrometer‐scale droplet matrix on an inkjet‐printed polylysine...
In contrast to the 2D organic‐inorganic hybrid Ruddlesden–Popper halide perovskites (RPP), a new class of 2D all inorganic RPP (IRPP) has been recently proposed by substituting the organic spacers with an optimal inorganic alternative of cesium cations (Cs+). Nevertheless, the synthesis of high‐membered 2D IRPPs (n > 1) has been a very challenging task because the Cs+ need to act as both spacers...
Real‐time observation of the electrochemical mechanistic behavior at various scales offers new insightful information to improve the performance of lithium‐ion batteries (LIBs). As complementary to the X‐ray‐based techniques and electron microscopy‐based methodologies, neutron scattering provides additional and unique advantages in materials research, owing to the different interactions with atomic...
The next‐generation flexible wearable electronics are among the most rapidly growing industries due to their extended use in everyday applications resulting in an increased demand for cheaper, safer, and flexible energy storage devices. This study aims to investigate and enhance the overall performance of a Zn‐MnO2 alkaline battery and make it suitable for safe and flexible wearable applications....
The charged species inside biofluids (blood, interstitial fluid, sweat, saliva, urine, etc.) can reflect the human body's physiological conditions and thus be adopted to diagnose various diseases early. Among all personalized health management applications, ion‐selective organic electrochemical transistors (IS‐OECTs) have shown tremendous potential in point‐of‐care testing of biofluids due to low...
Enzyme immobilization is an essential technology for commercializing biocatalysis. It imparts stability, recoverability, and other valuable features that improve the effectiveness of biocatalysts. While many avenues to join an enzyme to solid phases exist, protein‐mediated immobilization is rapidly developing and has many advantages. Protein‐mediated immobilization allows for the binding interaction...
Transparent electrodes (TEs) are pivotal components in many modern devices such as solar cells, light‐emitting diodes, touch screens, wearable electronic devices, smart windows, and transparent heaters. Recently, the high demand for flexibility and low cost in TEs requires a new class of transparent conductive materials (TCMs), serving as substitutes for the conventional indium tin oxide (ITO). So...
Solution‐processing hybrid solar cells with organics and colloidal quantum dots (CQDs) have drawn substantial attention in the past decade. Nevertheless, hybrid solar cells based on the recently developed directly synthesized CQD inks are still unexplored. Herein, a facile polymer blending strategy is put forward to enable directly synthesized CQD/polymer hybrid solar cells with a champion efficiency...
P2‐type sodium‐manganese‐based layered cathodes, owing to their high capacity from both cationic and anionic redox, are a potential candidate for Na‐ion batteries (NIBs) to replace Li‐ion technology in certain applications. Still, the structure instability originating from irreversible oxygen redox at high voltage remains a challenge. Here, a high sustainability cobalt‐free P2‐Na0.72Mn0.75Li0.24X0.01...
Graphene‐supported single‐atom catalysts (SACs) are promising alternatives to precious metals for catalyzing the technologically important hydrogen evolution reaction (HER), but their performances are limited by the low intrinsic activity and insufficient mass transport. Herein, a highly HER‐active graphene‐supported Co‐N‐C SAC is reported with unique design features in the morphology of the substrate...
Direct atomic‐scale observation of the local phase transition in transition metal dichalcogenides (TMDCs) is critically required to carry out in‐depth studies of their atomic structures and electronic features. However, the structural aspects including crystal symmetries tend to be unclear and unintuitive in real‐time monitoring of the phase transition process. Herein, by using in situ transmission...
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