Abstract: Strontium oxide (SrO) nanoparticle and various concentrations of chitosan (CS)-doped SrO nanocomposite were synthesized via co-precipitation method. A variety of characterization techniques including were done for characterizing and qualifying the nanocomposite. X ray powder diffraction affirmed cubic and tetragonal structure of SrO nanoparticle and CS-doped SrO nanocomposite with a decrease in crystallinity upon doping. Fourier transform infrared spectrum endorsed existing functional groups on CS/SrO surfaces while d-spacing was estimated using high resolution Transmission electron rnicroscopes images. UV-Visible and PL Photoluminescence spectroscopy spectra showed an increase in band gap energies with an increase in doping concentration. Elemental composition of CS-doped SrO nanocomposite deposited with different doping concentrations was studied using Energy dispersive Spectroscopy.

Abstract: A nonenzymatic biosensor based on a metal-modified porous boron-doped diamond electrode, and a method for preparing the same and use thereof are provided. A working electrode of the nonenzymatic biosensor is a metal-modified porous boron-doped diamond electrode including a silicon wafer substrate and an electrode working layer arranged on a surface thereof, the electrode working layer is a porous boron-doped diamond layer modified with metal nanoparticles, and a pore surface of the porous boron-doped diamond layer contains an sp2 phase. In the present invention, by combining chemical vapor deposition and magnetron sputtering and by means of a tubular atmosphere annealing furnace and an electrochemical workstation, the preparation of a multi-metal-modified porous boron-doped diamond composite electrode is realized.

Abstract: A system for generating a hypoglycemia risk signal associated with exercise-induced Hypoglycemia. The system can include a processor configured to obtain a blood glucose signal (BGstart), a ratio of absolute insulin on board over total daily insulin signal (IOBabs/TDI), and an initial glycemic slope signal (S0); generate a hypoglycemia risk signal based on a hypoglycemia prediction algorithm that determines the probability of a user being hypoglycemic during or after exercise based on the obtained BGstart, IOBabs/TDI and S0.

Abstract: An object to be achieved by the present in is to prepare a droplet using a protein that has not been known heretofore to form a droplet. The present invention provides a droplet including an assembly of a protein, wherein the protein is a PDI family protein and/or an artificial protein, and contains a thioredoxin-like domain.

Abstract: Methods of detecting presence of a virus in a sample are provided, the method including contacting the sample with a solid state nanopore comprising a plurality of virus-specific aptamers and measuring a current-voltage curve in the solid state nanopore, wherein a decrease in the current indicates presence of the virus in the sample. Solid state nanopores comprising a plurality of virus-specific aptamers covalently linked to the interior of the solid state nanopore are also provided. Membranes including a plurality of solid state nanopores including a plurality of covalently attached virus-specific aptamers and kits and systems with a membrane including a plurality of solid state nanopores including a plurality of covalently attached virus-specific aptamers are also provided.

Abstract: Biomass derived benzoin derivatives, and methods of making and using the same, are described. Benzoin derivatives may be used as visible light photoinitiators.

Abstract: New synthetic methods to provide access to previously unexplored functionality at the C8 position of substituted imidazo[5,1-d][1,2,3,5]tetrazines of Formula I. Through synthesis and evaluation of a suite of compounds with a range of aqueous stabilities (from 0.5 to 40 hours), a predictive model for imidazotetrazine hydrolytic stability based on the Hammett constant of the C8 substituent was derived. Promising compounds were identified that possess activity against a panel of GBM cell lines, appropriate hydrolytic and metabolic stability, and brain-to-serum ratios dramatically elevated relative to TMZ, leading to lower hematological toxicity profiles and superior activity to TMZ in a mouse model of GBM.

Abstract: The present invention provides a system for continuously producing diethyl methylphosphonite, comprising a rapid mixing reactor and a material circulation subsystem. An inlet of the rapid mixing reactor is provided with a rapid mixing component; the rapid mixing component comprises a first liquid inlet and a second liquid inlet: the second liquid inlet is used for feeding a material containing methylphosphonous dichloride; the material circulation subsystem comprises a filter, a material distribution unit, an acid binding agent premixer and a heat exchanger, which are connected in sequence; the filter is also provided with a solid waste outlet; the material distribution unit is also provided with a diethyl methylphosphonite outlet; the acid binding agent premixer is also provided with a reaction raw material inlet and an acid binding agent inlet; an inlet of the filter is connected to an outlet of the rapid mixing reactor; and an outlet of the heat exchanger is connected to the first liquid inlet.

Abstract: With the fasting growth of renewable energy resources and DC supplied loads, DC electrical systems have been increasingly received attentions all over the world. DC breaker systems play a key role in protection systems for disconnecting sources and loads, and they are also used mainly for removing faulted sections from the system accurately and reliably. Solid state DC breakers benefit from fast response time and compactness features; however, due to the lack of zero current realization and high-power losses, the reliability and efficiency of these devices is low. The system proposes a solid-state DC breaker for medium voltage DC (MVDC) systems.

Abstract: Processes of polymerizing polyolefins and synthesis of activators. The polymerization processes include polymerizing one or more (C2-C12)?-olefin monomers in the presence of at least one catalyst and at least one co-catalyst to produce a polyolefin. The co-catalyst includes a cation and an anion, in which the anion has a structure having a vinyl terminated alkene, one boron atom or more than one boron atoms, and at least four halogen atoms. The anion of the co-catalysts is incorporated into a polymer chain of the polyolefin.

Abstract: An apparatus includes: one or more processors configured to: generate packed data by performing data packing on an encrypted image; and perform a homomorphic encryption operation based on the packed data and a weight.

Abstract: According to various embodiments, a machine-learning based system for coronavirus detection is disclosed. The system includes one or more processors configured to interact with a plurality of wearable medical sensors (WMSs). The processors are configured to receive physiological data from the WMSs and questionnaire data from a user interface. The processors are further configured to train at least one neural network based on raw physiological data and questionnaire data augmented with synthetic data and subjected to a grow-and-prune paradigm to generate at least one coronavirus inference model. The processors are also configured to output a coronavirus-based decision by inputting the received physiological data and questionnaire data into the generated coronavirus inference model.

Abstract: Proposed are a regenerating agent for a radionuclide adsorbent containing aqueous ammonia and organic acid, a regenerating method for a radionuclide adsorbent after using the regenerating agent for the radionuclide adsorbent, a method for treating of a spent regenerating agent obtained by the regenerating method of the spent radionuclide adsorbent, and a method of improving ion exchange capability of the regenerated radionuclide adsorbent obtained by the regenerating method of the spent radionuclide adsorbent.

Abstract: Provided are an electrolyte for a manganese ion battery and a manganese ion battery using the same. In the electrolyte for a manganese ion battery, manganese salt is dissolved in an organic solvent and dissociated into manganese ions and anions, and manganese ions are used as a charge transfer material in the electrolyte to enable charging and discharging of the manganese ion battery. The electrolyte for a manganese ion battery uses manganese ions as a charge transport material and thus has good compatibility with manganese metal used as a negative electrode. In addition, the manganese ion battery to which the electrolyte is applied can use manganese metal, which is significantly cheaper than lithium metal and has a lower reactivity than lithium metal, as a negative electrode, so there are fewer side reactions during battery operation.

Abstract: A cartilage dicing device according to an embodiment of the present invention includes blades disposed in a housing configured to mitigate entry of the cartilage into the housing of the device. The device includes a number of circular blades used to dice the cartilage in a uniform fashion. The blades are disposed in a housing with a base that prevents the tissue from entering the body of the housing, which ensures that more of the tissue is available to be diced and used in a medical procedure. The blades are spaced at uniform distance.

Abstract: Disclosed is a method of screening a solid electrolyte having excellent lithium ion conductivity and stability.

Abstract: A low voltage single supply, ultra-low power sub hertz timer using a CMOS Schmitt trigger operating in sub-threshold region is presented. Sub-Hertz operation is achieved by controlling the amount of current for charging and discharging a capacitor at the control input of the Schmitt rather than by using large passive components. Pulse width modulation is achieved choosing the width per unit length parameters of transistors used in charging and discharging control blocks for the capacitor. The circuit uses a low supply voltage and can be designed for the higher voltages if required by specific applications. The circuit can produce sub-hertz oscillation with pulse width modulation. The capacitor has a small footprint compatible with integrated circuits. Power consumption is small with short ON times.

Abstract: A detection particle suitable for multiplex detection of biomolecules, including a microcarrier with an encoding function, detection microparticles connected to the microcarrier, where the detection microparticle is suitable for light-initiated chemiluminescent detection. A multifunctional detection particle integrating encoding identification, magnetic separation, and light-initiated chemiluminescent detection functions was prepared. And an imaging detection and analysis device for the multifunctional detection particle was provided. The provided detection particle suitable for multiplex detection of biomolecules can realize a highly sensitive, fast, and washing-free multiplex detection method, which greatly increases the types of biomolecules that can be detected by a single reaction, and can remove unreacted signal labeled molecules without washing during the whole process, thus simplifying experimental steps, and improving detection efficiency.

Abstract: A use of micro- and nano-MgH2 compound particles in the inhibition of Leishmania infection and in the treatment of Leishmaniasis is provided. The micro- and nano-MgH2 compound particles can be used to prepare a pharmaceutical composition for inhibiting Leishmania or to prepare a pharmaceutical composition for treating a skin or mucosal ulcer or visceral damage caused by Leishmania infection. The present disclosure discovers for the first time that the micro- and nano-MgH2 compound particles can significantly reduce the number of Leishmania in macrophages and inhibit the proliferation of Leishmania, indicating a very prominent insecticidal inhibition effect. The micro- and nano-MgH2 compound particles of the present disclosure can quickly and effectively cure a skin ulcer and/or a mucosal ulcer caused by Leishmania and an impaired function of an internal organ (mainly liver and spleen) caused by Leishmania and have high biosafety and huge clinical application values.

Abstract: A time series data adversarial sample generating method and system, an electronic device, and a storage medium, relating to the field of time series data processing. The method comprises: training a time series prediction model using original time series data (101); calculating a maximum value of a loss function in the time series prediction model by means of a stochastic gradient descent optimization strategy (102); determining corresponding noise according to the maximum value of the loss function (103); and superimposing the noise on the original time series data to generate a globally disturbed time series data adversarial sample (104). The method can significantly reduce the model accuracy under the condition of a small amount of data disturbance, has important significance for safe application of an industrial system, and has wide applicability and transferability.