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Our wafer-scale atomic layer lithography method can benefit a diverse range of 2D optical and electronic applications.Glutathione (GSH) level in cells maintains redox homeostasis, so the detection of intracellular GSH is crucial for many pathological processes. In the present study, we developed a cystamine-functionalized glass nanopore (cG-nanopore) for the specific detection of GSH in single cells through the Michael addition reaction between the amino group of cystamine and polydopamine adhered to the inner wall of the glass nanopore. The cellular GSH will cleave the disulfide bond of cystamine and induce a negative charge increase on the residual surface of the modified nanopore, thus producing a sensitive response on the current-voltage curves. The developed sensing platform showed a good response relationship with the GSH concentration and an excellent selectivity against interfering substances in cells. The variation of GSH content in single HeLa and H8 cells incubated with DOX was then further quantified by this method.

There is a need to improve the predictability of osseointegration in implant dentistry. Current literature uses a variety of in vivo titanium (Ti) implantation models to investigate failure modes and test new materials and surfaces. However, these models produce a variety of results, making comparison across studies difficult. The purpose of this study is to validate an oral osseointegration in the Lewis rat to provide a reproducible baseline to track the inflammatory response and healing of Ti implants.

Ti screws (0.76 mm

× 2 mm length) were implanted into the maxillary diastema of 52 adult male Lewis rats. Peri-implant tissues were evaluated 2, 7, 14, and 30 days after implantation (

= 13). Seven of the 13 samples underwent microtomographic analysis, histology, histomorphometry, and immunohistochemistry to track healing parameters. The remaining six samples underwent quantitative polymerase chain reaction (qPCR) to evaluate gene expression of inflammation and bone remodeling markers over time.

This model achieved a 78.5% success rate. Successful implants had a bone to implant contact (BIC)% of 68.86 ± 3.15 at 30 days on average. Histologically, healing was similar to other rodent models hematoma and acute inflammation at 2 days, initial bone formation at 7, advanced bone formation and remodeling at 14, and bone maturation at 30. qPCR indicated the highest expression of bone remodeling and inflammatory markers 2-7 days, before slowly declining to nonsurgery control levels at 14-30 days.

This model combines cost-effectiveness and simplicity of a rodent model, while maximizing BIC, making it an excellent candidate for evaluation of new surfaces.

This model combines cost-effectiveness and simplicity of a rodent model, while maximizing BIC, making it an excellent candidate for evaluation of new surfaces.Lipopolysaccharides (LPS) constitute the outermost layer of Gram-negative bacteria and consequently play an important role in bacterial infections. In order to address public health issues posed by Gram-negative bacteria, it is necessary to elucidate the structure of the molecular actors at the forefront of infections. LPS virulence and toxicity are partially modulated by lipid A, a hydrophobic saccharolipid that anchors LPS to the bacterial outer membrane. Understanding the lipid A structure is inherently intertwined with understanding its role as an endotoxin. click here Accordingly, several successful strategies incorporating tandem mass spectrometry have been applied toward the structural analysis of lipid A. Herein, a shotgun HCD strategy was applied toward the characterization of the lipid A profile of Pseudomonas aeruginosa PAO1. This analysis was enhanced by the development of an LC-MS/MS approach to eliminate isomeric signals in the MS/MS spectra that confounded characterization. Importantly, combining reverse phase chromatography with HCD and ultraviolet photodissociation analyses of the lipid A profile revealed the presence of previously unreported lipid A acyl chain positional isomers. Altogether, these strategies provide the most in-depth structural and molecular characterization of PAO1 lipid A to date.Ferroelectric memories based on hafnium oxide are an attractive alternative to conventional memory technologies due to their scalability and energy efficiency. However, there are still many open questions regarding the optimal material stack and processing conditions for reliable device performance. Here, we report on the impact of the sputtering process conditions of the commonly used TiN top electrode on the ferroelectric properties of Hf1-xZrxO2. By manipulating the deposition pressure and chemistry, we control the preferential orientation of the TiN grains between (111) and (002). We observe that (111) textured TiN is superior to (002) texturing for achieving high remanent polarization (Pr). Furthermore, we find that additional nitrogen supply during TiN deposition leads to >5× greater endurance, possibly by limiting the scavenging of oxygen from the Hf1-xZrxO2 film. These results help explain the large Pr variation reported in the literature for Hf1-xZrxO2/TiN and highlights the necessity of tuning the top electrode of the ferroelectric stack for successful device implementation.Flexible textile displays can be revolutionary for information transmission at any place and any time. Typically, textile displays are fabricated by traditional rigid electronics that sacrifice mechanical flexibility of devices or by flexible electronics that do not have an appropriate choice to arbitrarily control single pixels. This work reports on an electroluminescent fabric woven by ultrastretchable fibers (electroluminescent fibers up to 400% stretch, electrode fibers up to 250% stretch), which can exhibit the pixel-based arbitrarily controllable pattern display by a mobile phone application. To realize ultrastretchability, we made these fibers by encapsulating liquid metals on a polyurethane core (high elasticity). To realize arbitrary control, the design shows a plain-woven structure comprising ZnS-based electroluminescent fibers and perpendicular electrode fibers. The cross-points between the electroluminescent fiber and the electrode fiber form pixels that can be switched on or off independently and can further form the pixel-based arbitrarily controllable pattern display.