[Design and Clinical Application of Split Memory Alloy Sternum Plate].

Objective: The design and development of split memory alloy sternum bone plate are discussed, and the effect of split memory alloy sternum bone plate internal fixation in the treatment of sternal fractures are analysed.

Methods: The structure of the product is designed according to the anatomy and physiological characteristics of human bones, and the cross section shape of the product is designed according to the cross section shape of human bones. Internal fixation is effective in the treatment of sternal fracture.

Transcriptomic Analysis Reveals Candidate Genes Responsive to and Cloning of the -Inducible Chitinase Genes in .

(Ss) is a devastating fungal pathogen that causes Sclerotinia stem rot in rapeseed (), and is also detrimental to mulberry and many other crops. A wild mulberry germplasm, , showed high resistance to , but the molecular basis for the resistance is largely unknown. Here, the transcriptome response characteristics of to infection were revealed by RNA-seq.

One-step production of N-O-P-S co-doped porous carbon from bean worms for supercapacitors with high performance.

In recent years, multi-heteroatom-doped hierarchical porous carbons (HPCs) derived from natural potential precursors and synthesized in a simple, efficient and environmentally friendly manner have received extensive attention in many critical technology applications. Herein, bean worms (BWs), a pest in bean fields, were innovatively employed as a precursor a one-step method to prepare N-O-P-S co-doped porous carbon materials. The pore structure and surface elemental composition of carbon can be modified by adjusting KOH dosage, exhibiting a high surface area ( ) of 1967.

MYB43 in Oilseed Rape () Positively Regulates Vascular Lignification, Plant Morphology and Yield Potential but Negatively Affects Resistance to .

MYB43 (AtMYB43) is suggested to be involved in cell wall lignification. PtrMYB152, the orthologue of , is a transcriptional activator of lignin biosynthesis and vessel wall deposition. In this research, genes from (rapeseed) and its parental species and were molecularly characterized, which were dominantly expressed in stem and other vascular organs and showed responsiveness to infection.

Effect of Saturated Steam Heat Treatment on Physical and Chemical Properties of Bamboo.

The aim of this study was to investigate the effects of the heat treatment time and initial moisture content of bamboo on the corresponding chemical composition, crystallinity, and mechanical properties after saturated steam heat treatment at 180 °C. The mechanism of saturated steam heat treatment of bamboo was revealed on the micro-level, providing a theoretical basis for the regulation of bamboo properties and the optimization of heat treatment process parameters. XRD patterns of the treated bamboo slices were basically the same.

Synthesis of Fe₃C@C from Pyrolysis of Fe₃O₄-Lignin Clusters and Its Application for Quick and Sensitive Detection of PrP through a Sandwich SPR Detection Assay.

The prion protein (PrP) has drawn widespread attention due to its pathological potential to cause prion diseases. Herein, we successfully synthesized Fe₃C@C by carbonizing Fe₃O₄-lignin clusters, which were prepared through a facile hydrogen bonding interaction between ≡Fe-OH and hydroxyl groups of lignin. Our in-depth investigation confirmed that the composites were Fe₃C@C core/shell particles.

Measurement Matrix Construction for Large-area Single Photon Compressive Imaging.

We have developed a single photon compressive imaging system based on single photon counting technology and compressed sensing theory, using a photomultiplier tube (PMT) photon counting head as the bucket detector. This system can realize ultra-weak light imaging with the imaging area up to the entire digital micromirror device (DMD) working region. The measurement matrix in this system is required to be binary due to the two working states of the micromirror corresponding to two controlled elements.

Adaptive Single Photon Compressed Imaging Based on Constructing a Smart Threshold Matrix.

We demonstrate a single-photon compressed imaging system based on single photon counting technology and compressed sensing theory. In order to cut down the measurement times and shorten the imaging time, a fast and efficient adaptive sampling method, suited for single-photon compressed imaging, is proposed. First, the pre-measured rough images are transformed into sparse bases as a priori information.

Large-area single photon compressive imaging based on multiple micro-mirrors combination imaging method.

We demonstrate a single photon compressive imaging system with the image plane up to the entire digital micro-mirror device (DMD) work area. A parallel light source is designed to reduce the influence of light scattering on imaging resolution and a photon counting photomultiplier tube (PMT) with a large photosensitive area is used to effectively collect light reflected from the full screen of DMD. A control and counting circuit, based on Field-Programmable Gate Array (FPGA), is developed to load binary random matrix into the DMD controller for each measurement, and to count single-photon pulse output from PMT simultaneously.

Synthesis of Magnetic Wood Fiber Board and Corresponding Multi-Layer Magnetic Composite Board, with Electromagnetic Wave Absorbing Properties.

With the rapid growth in the use of wireless electronic devices, society urgently needs electromagnetic wave (EMW) absorbing material with light weight, thin thickness, wide effective absorbing band width, and strong absorption capacity. Herein, the multi-layer magnetic composite boards are fabricated by hot-pressing magnetic fiber boards and normal veneer layer-by-layer. The magnetic fibers obtained using in-situ chemical co-precipitation are used to fabricate magnetic fiber board by hot-pressing.