Abstract: The present disclosure provides a testis-targeted lycopene (LYC)/ZIF-90 nanocomposite and a preparation method and use thereof, belonging to the technical field of targeted drugs. In the present disclosure, a ZIF-90 metal-organic framework (MOF) material is combined with LYC through aldol condensation; when entering areas of inflammatory response and oxidative stress response, ZIF-90 may disintegrate and collapse in a slightly-acidic environment, releasing the LYC, thereby avoiding easy oxidation of the LYC and improving a bioavailability of the LYC; in addition, the disintegrated and collapsed ZIF-90 may also be utilized by organisms, thus greatly reducing a damage to the organisms. Moreover, the LYC/ZIF-90 nanocomposite is further loaded with follicle-stimulating hormone (FSH).

Abstract: Disclosed are a preparation process and an automatic filling apparatus for ceramic slurry of an explosion-proof thermistor. The automatic filling apparatus includes a slurry stirring and conveying device, a ceramic housing arranging and conveying device, a primary filling mechanism, a secondary filling mechanism, and a chip inserting mechanism, where the primary filling mechanism and the secondary filling mechanism are arranged at a left end and a right end of the ceramic housing arranging and conveying device respectively, the chip inserting mechanism is arranged between the primary filling mechanism and the secondary filling mechanism, and the slurry stirring and conveying device is connected to the primary filling mechanism and the secondary filling mechanism. The present automatic filling apparatus realizes streamlined continuous filling of the ceramic slurry of the explosion-proof thermistor. Accordingly, a filling efficiency of the explosion-proof thermistor is improved.

Abstract: The present invention relates to a polymer of formula I, a cosmetic composition comprising the polymer of formula I, a method of synthesizing the polymer of formula I; and use of the polymer of formula Ito provide a benefit in a photoresponsive way.

Abstract: The present application belongs to the field of cooking appliances, and relates to a door assembly and a cooking device. The door assembly of the present application includes a door panel, a control panel and a locking member. The door panel is provided with a first mounting hole penetrating the door panel, the control panel is provided with a second mounting hole arranged opposite to the first mounting hole, and the locking member includes a connecting end and a fixing end; the connecting end can pass through the first mounting hole and be inserted into the second mounting hole for connecting the door panel and the control panel, and the door panel is located between the locked control panel and the fixing end.

Abstract: The present application discloses a cooking device, which includes an inner chamber, an outer cover and an air suction assembly; the inner chamber is provided with a cooking cavity; the outer cover is arranged outside the inner chamber, and a heat dissipation air duct and a fume air duct is formed between the outer cover and the inner chamber; at least part of the heat dissipation air duct is located on a side of the inner chamber, a first air inlet of the heat dissipation air duct is provided on the outer cover and arranged corresponding to the side of the inner chamber, the heat dissipation air duct communicates with the cooking cavity and the fume air duct respectively, and a set of power devices of the cooking device are placed in the heat dissipation air duct.

Abstract: A conjugate containing a fluorescent chromophore, which has any structure selected from C1 to C3. The conjugate containing the fluorescent chromophore provided by the described embodiments includes one fluorescent chromophore and two highly reactive groups R1 and R2 linked to the fluorescent chromophore by a covalent bond. The fluorescent chromophore in the conjugate initially has no or only weak fluorescence emission capability, and only after the two highly reactive groups react together with the corresponding molecule, the fluorescent chromophore has strong fluorescence emission. Therefore, the efficiency of conjugation of drug molecules to targeting molecules can be monitored in situ by the infrared fluorescence emission intensity and applied to the target-mediated drug delivery.

Abstract: A conjugate containing a fluorescent chromophore, which has any structure selected from C1 to C3. The conjugate containing the fluorescent chromophore provided by the described embodiments includes one fluorescent chromophore and two highly reactive groups R1 and R2 linked to the fluorescent chromophore by a covalent bond. The fluorescent chromophore in the conjugate initially has no or only weak fluorescence emission capability, and only after the two highly reactive groups react together with the corresponding molecule, the fluorescent chromophore has strong fluorescence emission. Therefore, the efficiency of conjugation of drug molecules to targeting molecules can be monitored in situ by the infrared fluorescence emission intensity and applied to the target-mediated drug delivery.

Abstract: A microwave oven includes an outer housing defining an accommodating chamber therein and having a first cooling air inlet and a first cooling air outlet therein; an inner housing disposed within the accommodating chamber and defining a heating chamber therein, the heating chamber having a second cooling air inlet and a second cooling air outlet communicated with the first cooling air outlet, a cooling air passage being defined between an upper surface of the inner housing and a top wall of the accommodating chamber and communicated with the second cooling air inlet; a cooling fan having an air inlet communicated with the first cooling air inlet via an air inlet passage and an air outlet communicated with the cooling air passage; and an electrical component disposed within the cooling air passage.

Abstract: The present invention relates to a microwave oven including an oven door and a heating chamber with a back wall, and the oven door is installed in the front of the heating chamber. There are more than one protrusion disposed on the back wall, and each of the protrusions has more than three reflecting surfaces and protrudes toward an inside of the heating chamber. The back wall of the heating chamber in the microwave oven has the structure of a plurality of reflecting surfaces, which makes the microwave emitted by a magnetron reach every position of the heating chamber by reflection of the multiple reflecting surfaces, thereby the microwave distributes more evenly and consistently, thus the food may be heated more rapidly and uniformly.

Abstract: A microwave oven includes an outer housing defining an accommodating chamber therein and having a first cooling air inlet and a first cooling air outlet therein; an inner housing disposed within the accommodating chamber and defining a heating chamber therein, the heating chamber having a second cooling air inlet and a second cooling air outlet communicated with the first cooling air outlet, a cooling air passage being defined between an upper surface of the inner housing and a top wall of the accommodating chamber and communicated with the second cooling air inlet; a cooling fan having an air inlet communicated with the first cooling air inlet via an air inlet passage and an air outlet communicated with the cooling air passage; and an electrical component disposed within the cooling air passage.

Abstract: The present invention discloses a method of fabricating a heterojunction battery, comprising the steps of: depositing a first amorphous silicon intrinsic layer on the front of an n-type silicon wafer, wherein the n-type silicon wafer may be a monocrystal or polycrystal silicon wafer; depositing an amorphous silicon p layer on the first amorphous silicon intrinsic layer; depositing a first boron doped zinc oxide thin film on the amorphous silicon p layer; forming a back electrode and an Al-back surface field on the back of the n-type silicon wafer; and forming a positive electrode on the front of the silicon wafer. In addition, the present invention further discloses a method of fabricating a double-sided heterojunction battery. In the present invention, the boron doped zinc oxide is used as an anti-reflection film in place of an ITO thin film; due to the special nature, especially the light trapping effect of the boron doped zinc oxide, the boron doped zinc oxide can achieve good anti-reflection.

Abstract: An over-the-range microwave oven and a ventilation passage system of the same are provided. The over-the-range microwave oven includes an outer casing defining a cooking cavity and an exhaust passage in the outer casing, the exhaust passage defining an inlet formed in a base plate of the outer casing and an outlet; and a baffle plate disposed below and facing the base plate, in which the baffle plate and the base plate are spaced apart from each other to form a smoke collection cavity between the baffle plate and the base plate.

Abstract: The present invention discloses a method of fabricating a heterojunction battery, comprising the steps of: depositing a first amorphous silicon intrinsic layer on the front of an n-type silicon wafer, wherein the n-type silicon wafer may be a monocrystal or polycrystal silicon wafer; depositing an amorphous silicon p layer on the first amorphous silicon intrinsic layer; depositing a first boron doped zinc oxide thin film on the amorphous silicon p layer; forming a back electrode and an Al-back surface field on the back of the n-type silicon wafer; and forming a positive electrode on the front of the silicon wafer. In addition, the present invention further discloses a method of fabricating a double-sided heterojunction battery. In the present invention, the boron doped zinc oxide is used as an anti-reflection film in place of an ITO thin film; due to the special nature, especially the light trapping effect of the boron doped zinc oxide, the boron doped zinc oxide can achieve good anti-reflection.

Abstract: The present invention relates to a microwave oven including an oven door and a heating chamber with a back wall, the oven door being installed in the front of the heating chamber, wherein there are more than one protrusion disposed on the back wall, and each of the protrusions has more than three reflecting surfaces and protrudes toward an inside of the heating chamber. The back wall of the heating chamber in the microwave oven has the structure of a plurality of reflecting surfaces, which makes the microwave emitted by a magnetron reach every position of the heating chamber by reflection of the multiple reflecting surfaces, thereby the microwave distributes more evenly and consistently, thus the food may be heated more rapidly and uniformly.