Effect of Oxygen Functional Groups in Reduced Graphene Oxide-Coated Silk Electronic Textiles for Enhancement of NO Gas-Sensing Performance.

An electronic textile-based NO gas sensor was fabricated using commercial silk and graphene oxide (GO). It showed a fast response time and excellent sensing performance, which was simply accomplished by modifying the heat-treatment process. The heat treatment was conducted at 400 °C and different heating rates of 1, 3, and 5 °C/min.

Photothermochemical Nanoassembly of 3D Porous Graphene and Palladium Nanoparticles for High-Performance Hydrogen Detection.

Hybrid materials comprising graphene and palladium nanoparticles (PdNPs) are desirable for high-performance hydrogen detection because of the high specific surface area, electron mobility, and flexibility of graphene and the high electrochemical responsivity and reversibility of PdNPs. However, obtaining hybrid materials is energy-intensive and time-consuming. Here, a facile and rapid laser photothermochemical single-step processing method to synchronously produce a nanoassembly of three-dimensional porous graphene and PdNPs from polymer films is reported.

Audiologic and Otologic Clinical Manifestations of Loeys-Dietz Syndrome: A Heritable Connective Tissue Disorder.

Objective: Loeys-Dietz syndrome (LDS) is a rare genetic connective tissue disorder resulting from TGF-ß signaling pathway defects and characterized by a wide spectrum of aortic aneurysm, arterial tortuosity, and various extravascular abnormalities. This study describes the audiologic, otologic, and craniofacial manifestations of LDS.

Study Design: Consecutive cross-sectional study.

Streamlining the Cochlear Implant Evaluation: Utility of Community Audiometry in Cochlear Implant Candidacy Assessment.

Objective: To identify redundancy in the cochlear implant candidacy evaluation and assess its financial impact.

Study Design: Retrospective chart review.

Setting: Tertiary care academic cochlear implant center.

Charge transport in pyroprotein-based electronic yarns.

Pyroprotein-based carbon materials produced by heat-treating silk proteins have many potential applications in electronic devices, such as electronic textiles. To further develop potential electronic devices using these pyroproteins, the charge transport mechanism has to be verified. However, the electrical characteristics of the pyroproteins have not been reported yet.

Antigen processing and presentation in cancer immunotherapy.

Background: Knowledge about and identification of T cell tumor antigens may inform the development of T cell receptor-engineered adoptive cell transfer or personalized cancer vaccine immunotherapy. Here, we review antigen processing and presentation and discuss limitations in tumor antigen prediction approaches.

Methods: Original articles covering antigen processing and presentation, epitope discovery, and in silico T cell epitope prediction were reviewed.

Interaction between VO nanowires and high pressure CO gas up to 45 bar: Electrical and structural study.

In the oxidative dehydrogenation (ODH) process that converts ethylbenzene to styrene, vanadium-based catalysts, especially VO, are used in a CO atmosphere to enhance process efficiency. Here we demonstrate that the activation energy of VO can be manipulated by exposure to high pressure CO, using VO nanowires (VON). The oxidation of V to V was observed by X-ray photoelectron spectroscopy.

Single-Shot Imaging of Two-Wavelength Spatial Phase-Shifting Interferometry.

In this investigation, we propose an effective method to measure 3D surface profiles of specimens with single-shot imaging. Based on the two-wavelength interferometric principle and spatial phase-shifting technique using a polarization pixelated camera, the proposed system can not only rapidly measure the phase, but also overcome the 2π-ambiguity problem of typical phase-shifting interferometry. The rough surface profile can be calculated by the visibility of the interference fringe and can compensate for the height discontinuity by phase jumps occurring in a fine height map.

High-speed polarized low coherence scanning interferometry based on spatial phase shifting.

In this investigation, we describe polarized low coherence scanning interferometry (PLCSI) to enhance the measurement speed based on the spatial phase shifting technique by using a polarized CMOS camera. In every scanning step, the visibility of the correlogram can be directly extracted by spatial phase shifting. PLCSI does not need any scanning conditions such as a scanning step size smaller than that determined by the Nyquist sampling limit and equidistant scanning step, which restrict the measurement speed of the typical low coherence scanning interferometry (LCSI).

Commercial Silk-Based Electronic Yarns Fabricated Using Microwave Irradiation.

Electronic textiles (e-textiles) are being developed because of their potential applications in wearable and flexible electronics. However, complex procedures and chemical agents are required to synthesize carbon-based e-textiles. Pyroprotein-based e-textiles, obtained by the pyrolysis of silk proteins, consume large amounts of time and energy due to the high-temperature process (from 800 to 2800 °C).

Influence of hydrogen incorporation on conductivity and work function of VO nanowires.

We report improved conductance by reducing the work function via incorporation of hydrogen into VO2 nanowires. The VO2 nanowires were prepared using the chemical vapor deposition method with V2O5 powder on silicon substrates at 850 °C. Hydrogenation was carried out using the high-pressure hydrogenation method.

Electronic-dimensionality reduction of bulk MoS by hydrogen treatment.

A reduction in the electronic-dimensionality of materials is one method for achieving improvements in material properties. Here, a reduction in electronic-dimensionality is demonstrated using a simple hydrogen treatment technique. Quantum well states from hydrogen-treated bulk 2H-MoS2 are observed using angle resolved photoemission spectroscopy (ARPES).

Near-Infrared Optical Contrast of Skull Base Tumors During Endoscopic Endonasal Surgery.

Background: Near-infrared (NIR) tumor contrast is achieved through the "second-window ICG" technique, which relies on passive accumulation of high doses of indocyanine green (ICG) in neoplasms via the enhanced permeability and retention effect.

Objective: To report early results and potential challenges associated with the application of second-window ICG technique in endonasal endoscopic, ventral skull-base surgery, and to determine potential predictors of NIR signal-to-background ratio (SBR) using endoscopic techniques.

Methods: Pituitary adenoma (n = 8), craniopharyngioma (n = 3), and chordoma (n = 4) patients received systemic infusions of ICG (5 mg/kg) approximately 24 h before surgery.

Pyroprotein-Based Electronic Textiles with High Stability.

Thermally reducible pyroprotein-based electronic textiles (e-textiles) are fabricated using graphene oxide and a pyroprotein such as cocoon silk and spider web without any chemical agents. The electrical conductivity of the e-textile is 11.63 S cm , which is maintained even in bending, washing, and temperature variation.