Cellulose Formate‐Based Surgical Sutures With Tunable Absorbability and Enhanced Biocompatibility
Researchers have developed a cellulose formate‑based surgical suture that combines collagen and a poly(vinyl alcohol) surface coating to deliver mechanical strength comparable to commercial collagen sutures. By tuning the polymerization and substitution degree of the cellulose formate, the suture’s absorbability can be adjusted, achieving over 50 % strength loss between 21 and 49 days and full degradation to glucose within two months. The material also shows enhanced antibacterial properties and low inflammatory response, leading to faster wound healing in vivo. These attributes position the green, renewable suture as a viable alternative to existing absorbable sutures.
The Preparation of Porous CuO@F‐GDY Nano‐Arrays for High‐Performance Sodium‐Ion Battery Anodes
Researchers have engineered a porous CuO nano‑array anode coated with fluorinated graphdiyne (F‑GDY) for sodium‑ion batteries. The F‑GDY shell confines the CuO structure, mitigating volume expansion and facilitating rapid interfacial charge transfer. Electrochemical testing shows a reversible capacity of 681 mAh g⁻¹...
Leveraging Natural Wood Structures for Sustainable and High‐Performance Osmotic Energy Harvesting
Researchers created a heterogeneous membrane by infiltrating sodium alginate into delignified wood, leveraging the wood's natural channels and added surface charges to boost ion transport for osmotic energy harvesting. The wood/alginate (W/SA) membrane achieved a power density of 14.43 W m⁻² under...
A Multifunctional Bioactive Nanoscale Coating Deposited by Atmospheric Pressure Plasma Polymerization of Peppermint Essential Oil
Researchers have developed a substrate‑independent nanoscale coating by atmospheric pressure plasma polymerisation of peppermint essential oil. The plasma‑derived film retains antioxidant, antibacterial and immunomodulatory functional groups, delivering up to 90% reactive species scavenging and significant cytokine modulation. In vitro tests...
Experimental Visualization and the Mechanism of Current‐Collector Geometry Effects on Ion Distribution and Device Longevity
Researchers experimentally mapped the three‑dimensional ion distribution in transition‑metal‑oxide cathodes and identified a pervasive “bottom effect,” where trapped cations accumulate far from the current‑collector pole, accelerating localized aging. Simulations had predicted uneven current density from collector geometry, but this study...
Light‐Guided Molecular Patterning for High‐Throughput Single‐Molecule Mechanical Characterization
Researchers have introduced a light‑guided molecular patterning technique that arranges oligonucleotides on surfaces using UV patterns projected through a digital micromirror device. The method eliminates the need for specialized lithography tools, offering a cost‑effective, scalable way to create precise single‑molecule...
Real‐Time Imaging of Intercalation–Conversion Li Storage in MXenes for Solid‐State Batteries
Operando scanning transmission electron microscopy directly visualizes lithium transport and redox evolution in Ti3C2Tx MXene electrodes within a sulfide‑based solid‑state battery. The study identifies three reaction pathways: interlayer Li (de)intercalation with Ti redox, partially reversible Li2O formation on the MXene...
Highly Connected Stable Metal–Organic Frameworks With Polyhedral Cage‐Like Cavities for Natural Gas Upgrading
Researchers synthesized four highly connected metal‑organic frameworks (MOFs) featuring polyhedral cage‑like cavities using an isoreticular design strategy. The materials demonstrate strong uptake of ethane (C2H6) and propane (C3H8) while adsorbing significantly less methane (CH4), enabling CH4 purification to over 99.9%...
Chemical Passivation and Crystallization Kinetics Regulation for Enhancing Efficiency and Stability of Inverted Perovskite Solar Cells
Researchers introduced the organic small‑molecule additive MSB into perovskite precursor solutions, slowing crystallization and enlarging grain size while simultaneously passivating defects. The multifunctional sulfonyl and amidinium groups bind lead ions and resist deprotonation, delivering multi‑site, long‑term passivation. These combined effects...
Nano‐Functionalized Biopolymer Films with Green‐Synthesized CuO/Attapulgite for Light‐Promoted Antibacterial Therapy and Wound Healing
Researchers used olive leaf extract to green‑synthesize copper‑oxide nanoparticles anchored on attapulgite clay, creating a visible‑light‑responsive nanocomposite. The CuO/attapulgite particles were embedded in κ‑carrageenan/carboxymethyl chitosan films, yielding dressings with a water contact angle of 56.7°, high moisture retention, and robust...
Printed Liquid Metal–Solid Metal Hybrid Electrodes for Stabilizing Liquid Platinum–Gallium Droplets During Electrocatalysis
Researchers have created a printed liquid‑metal catalyst platform that confines platinum‑in‑gallium droplets within a fused tungsten nanoparticle matrix on porous molybdenum mesh. The W‑nanoparticle scaffold physically traps the Ga‑based liquid droplets, preventing agglomeration and leaching while maintaining reactive surface exposure....
AI‐Guided Droplet Microreactors Enable Rapid and Reproducible Protein Crystallization
Researchers unveiled the Droplet Concentration Control and Vision (DCCV) platform, a microfluidic system that combines programmable osmotic modulation with automated computer‑vision analysis. By using semi‑permeable double‑emulsion droplets, the platform can adjust solute concentrations after droplet formation, precisely managing protein supersaturation....
High‐Selective and Ultrafast Furfural Removal From Simulated Biomass Hydrolysates via a Sustainable MOF‐Based Strategy
Researchers introduced MIL-53-TDC, a metal‑organic framework that removes furfural from simulated biomass hydrolysates with unprecedented speed and selectivity. The material combines size‑based molecular sieving with moderate hydrogen‑bonding to achieve 98% furfural removal and a static capacity of 424.6 mg g⁻¹, while leaving...
In Situ Constructed Zn3N2‐Enriched Hybrid Solid Electrolyte Interphase Enables Highly Efficient Zinc Deposition Kinetics for Ultra‐Stable Zinc‐Iodine Batteries
Researchers introduced copper hexadecafluorophthalocyanine (FCP) as an electrolyte additive that in situ creates a Zn3N2‑rich inorganic‑organic hybrid solid electrolyte interphase (SEI) on zinc anodes. The hybrid SEI provides high Zn2+ conductivity and a delocalized electric field that speeds desolvation, leading...
Reorientation‐Driven Degradation in Oriented Perovskite Films: Shifting Facet Engineering to Thermodynamic Stability
Researchers investigated the link between crystallographic orientation and thermal stability in narrow‑bandgap Sn‑Pb mixed perovskite solar cells. Using an additive‑free two‑step deposition, they produced highly oriented films that, when aged at 120 °C, retained only 73 % of their initial power conversion...
Superior High‐Temperature Capacitive Energy Storage Enabled by Interfacial Ion‐Matrix Synergy in Fluoride‐Composites
Researchers have introduced a dual‑functional interfacial design that embeds calcium fluoride (CaF2) nanoparticles into a polyetherimide (PEI) matrix, addressing the degradation of polymer dielectrics at high temperatures. The fluoride anions neutralize mobile ions while the Ca2+ cations form deep energy...
High Perpendicular Anisotropy in Mo‐Inserted Mg Composite Free Layer for Nonvolatile Magnetoresistive Random Access Memory in 4K‐400K Universal Temperature Applications
Researchers have unveiled a universal‑temperature nonvolatile MRAM (UTF‑NVMRAM) that operates reliably from 4 K to 400 K by inserting molybdenum into a CoFeB composite free layer and optimizing a MgO/MgOx capping stack. The design dramatically reduces temperature‑dependent switching‑voltage drift to 0.68 mV/K and...
Vapor‐Phase Synthesis of Potassium‐Doped Polymeric Carbon Nitride Photocatalytic Panels
Researchers have introduced a vapor‑phase condensation technique to grow potassium‑doped polymeric carbon nitride (CN) panels directly on KCl‑coated substrates. The process creates cyano‑group defects that shift the band edge, enhancing light absorption and charge separation. As a result, the doped...
Microbubble‐Mediated Synthesis of Smart Spindle Microfibers for Fog Harvesting
Researchers have introduced a microfluidic technique that injects microbubbles into a PNIPAm pre‑gel and uses pulsatile flow to form spindle‑knotted microfibers. The resulting fibers feature textured hydrophilic surfaces that extend the three‑phase contact line, delivering a 1.65‑fold increase in fog‑water...
Decoding pH‐Driven Phase Transition of Lipid Nanoparticles
Researchers applied constant‑pH molecular dynamics to the Comirnaty lipid nanoparticle formulation, uncovering a dramatic pKa shift for the ionizable aminolipid ALC‑0315. The intrinsic pKa of 9.3 in water drops to an apparent 4.9 within the LNP, with surface regions remaining...
Highly Selective and Flexible HCl Sensor Enabled by Ag2O‐Functionalized Graphene Micropatterns
Researchers have functionalized graphene with silver oxide (Ag₂O) nanoparticles, creating a flexible sensor that detects hydrogen chloride (HCl) at room temperature. The device achieves an ultra‑low detection limit of 5.61 parts per trillion and operates on just 6.47 mW of power. Real‑time...
Tailored Supramolecular Self‐Assembly Nanoporous Carbon Toward Zinc Ion Hybrid Supercapacitor Application
Researchers have introduced a supramolecular self‑assembly route to produce a nanoporous carbon with uniform ~10 Å pores and reinforced nitrogen doping. The “twin template” method uses heavy bio‑oil precursors to create a carbon fiber mesh that serves as an efficient cathode...
Attapulgite Template for Oxygen Vacancies Boost of Manganese Dioxide Nanozymes With High Oxidase‐Like Activity
Researchers used natural attapulgite as a template to create oxygen vacancies in MnO2 nanozymes, dramatically boosting oxidase-like activity. Surface hydroxyl groups on ATP weaken Mn‑O bonds, lowering the energy barrier for vacancy formation. The engineered nanozyme achieves a Michaelis constant...
Self‐Assembled Nanostructured Microgels with Reconfigurable Morphologies
Researchers have introduced a new class of bent‑core amphiphiles that self‑assemble into fibrillar, tubular and helical organogels. These organogels can be emulsified in water, producing nanostructured microgels that preserve the internal liquid‑crystalline architecture. By incorporating fluorocarbon oils, the droplets form...
In Situ Cu‐N Sites: Weak Interactions Drive Strong Catalysis by Mimicking Cu–His Metallocofactor
Researchers introduced imidazole into copper‑oxide nanozyme systems, creating reversible Cu‑N active sites that mimic the Cu‑His pocket of natural phenolic oxidases. This dynamic coordination replaced static Cu‑O centers and boosted the oxidation rate of 2,4‑chlorophenol by 110‑fold. Electrochemical data revealed...
Electron‐Rich Platinum Atoms in Lattice of Nickel‐Iron Layered Double Hydroxide Enhance Seawater Electrolysis
Researchers doped sub‑percent platinum atoms into the lattice of nickel‑iron layered double hydroxide, creating the PtNiFe‑D15 catalyst. In alkaline seawater the catalyst achieves 1000 mA cm⁻² at only 217 mV overpotential, far outperforming commercial 20 wt% Pt/C. The electron‑rich Pt sites and oxygen‑vacancy‑induced Ni...
Superhydrophobic Coatings with Perfluorinated Metal–Organic Frameworks for Enhanced Corrosion Resistance
Researchers have developed a superhydrophobic coating by spray‑depositing fluorinated UIO‑66 metal‑organic framework (MOF) nanoparticles onto an epoxy resin matrix. The hierarchical coating delivers exceptional corrosion resistance, maintaining impedance values roughly seven orders of magnitude higher than bare Q235 steel after...
Amorphous Red Phosphorus: Host–Guest Assembly with Cyclodextrin
Researchers have demonstrated that amorphous red phosphorus (ARP) can form host‑guest complexes with α‑ and β‑cyclodextrins in aqueous solution, creating water‑soluble pseudo‑polyrotaxanes. β‑CD, whose 0.60 nm cavity matches ARP’s 0.582 nm width, threads rapidly, while α‑CD requires conformational distortion and achieves only...
Reconstruction Induced Dynamic Incorporation of Zn Into Cobalt Hydroxide via Synergistic Structural Evolution for Efficient Hydrogen Evolution Reaction
The researchers present a ZnO@CoMoO4 core‑shell electrocatalyst where ZnO nanorods dissolve during operation, dynamically doping the reconstructed Co(OH)2 with zinc. This Zn‑doped Co(OH)2 achieves a hydrogen evolution reaction overpotential of 40 mV at 10 mA cm⁻² and maintains 65 mV in simulated seawater. The...
Facile Access to Energy‐Efficient Heterostructured Films via Scalable Planar Frontal Polymerization
Researchers introduced a planar frontal polymerization (FP) method that couples self‑propagating polymer curing with gravity‑driven microsphere assembly to create heterogeneous films. The technique yields a high‑crystallinity colloidal photonic crystal layer that reflects 96% of solar radiation and emits 98% of...
Strength in Synergy: MoS2‐VS4 Nano‐Architecture Modified with Reduced Graphene Oxide as a Robust Electrocatalyst for Overall Water Splitting
Researchers engineered a 2D heterostructure combining MoS2, VS4, and reduced graphene oxide (r‑GO) to serve as a bifunctional electrocatalyst for water splitting. The catalyst delivers a low overpotential of 104 mV for the hydrogen evolution reaction and 236 mV for the oxygen...
Metallic Transport in Pseudocubic Quaternary Diamondoid Thermoelectric Semiconductor
Researchers have demonstrated that CdSe‑doped Cu₂ZnSnSe₄ exhibits metallic transport, achieving a room‑temperature electrical conductivity of 1,200 S cm⁻¹. Substituting 10 % of Sn⁴⁺ with Cd²⁺ raises carrier concentration to ~10²¹ cm⁻³ while preserving the pseudocubic lattice. Adding a small fraction of Ag further lowers...
Interfacial Bidirectional Anchoring for CsPbI3 Phase Stabilization in Inverted Perovskite Solar Cells
Researchers introduced a bidirectional anchoring strategy using 1‑Methyl‑3‑(3‑sulfopropyl)‑1H‑imidazol‑3‑ium chloride (SM Cl) to stabilize the black phase of inorganic perovskite CsPbI3. The sulfonate group binds Cs⁺ while the imidazole coordinates the [PbI₆]⁴⁻ octahedra, creating compressive strain that suppresses phase transition. Inverted perovskite...
Facile Synthesis of Sodium Titanate Nanosheets as Promising Electrode Material for High Power and Energy Density Supercapacitors
Researchers have developed sodium titanate (NTO) nanosheets via solid‑state sintering as a high‑performance supercapacitor electrode. The material delivers 670 F/g at 1 A/g and retains 175 F/g at 10 A/g, with 98.5 % coulombic efficiency over 5,000 cycles. An asymmetric device pairing NTO with activated...
Multi‐Dimensional Engineering Enables Interfacial and Mechanical Stability of Mesoporous Carbon Anode for Lithium‐Ion Batteries
Researchers have engineered a rigid‑flexible MC@MXene‑CNT composite that encapsulates mesoporous carbon spheres with Ti3C2Tx MXene nanosheets and interwoven carbon nanotubes. This multi‑dimensional architecture preserves the high surface area of the carbon while leveraging MXene’s surface chemistry and CNTs’ conductivity to...
Yield‐Stress Composite Fluids With High Thermal Conductivity and Tunable Rheology via Hierarchical Filler Architecture
Researchers introduced a yield‑stress composite fluid that combines liquid‑like flowability with solid‑like rigidity by embedding multi‑sized aluminum nitride (AlN) particles in a polydimethylsiloxane matrix. The hierarchical filler architecture creates dense thermal pathways, delivering a thermal conductivity of 12.0 W·m⁻¹·K⁻¹ while maintaining...