Abstract: An MOFs composite electrode material for supercapacitors includes: a Ni-BSC matrix, and a PEDOT coating layer coated on the Ni-BTC matrix, wherein a molar ratio of EDOT to Ni-BTC is 1:(1-4) based on a molar amount of EDOT monomer. A method for preparing the MOFs composite electrode material includes steps of: using nickel nitrate hexahydrate and benzenetricarboxylic acid as raw materials to synthesize Ni-BTC by a hydrothermal method; and using a liquid phase method to grow PEDOT on a surface of the Ni-BTC. An MOFs composite electrode slurry and a working electrode for the supercapacitors including the above MOFs composite electrode material or a MOFs composite electrode material prepared by the above method are also provided. The MOFs composite electrode material provided by the present invention combines advantages of Ni-BTC and PEDOT.

Abstract: Provided are a compound of 3,3,3?,3?-tetramethyl-1,1?-spirobiindane-based bisoxazoline ligand, an intermediate, a preparation method and uses thereof. The compound of bisoxazoline ligand is a compound having a structure represented by formula I, or an enantiomer, a raceme, or diastereomer thereof. The bisoxazoline ligand can be prepared via a preparation scheme in which the cheap and easily available 6,6?-dihydroxyl-3,3,3?,3?-tetramethyl-1,1?-spirobiindane is used as a starting raw material and the compound represented by formula II serves as the key intermediate through a series of reactions. The new bisoxazoline ligand developed by the present application can be used in catalytic organic reaction, in particular as a chiral bisoxazoline ligand that is widely used in many asymmetric catalytic reactions of metal catalysis, and thus it has economic practicability and industrial application prospect.

Abstract: Provided are a compound of 3,3,3?,3?-tetramethyl-1,1?-spirobiindane-based bisoxazoline ligand, an intermediate, a preparation method and uses thereof. The compound of bisoxazoline ligand is a compound having a structure represented by formula I, or an enantiomer, a raceme, or diastereomer thereof. The bisoxazoline ligand can be prepared via a preparation scheme in which the cheap and easily available 6,6?-dihydroxyl-3,3,3?,3?-tetramethyl-1,1?-spirobiindane is used as a starting raw material and the compound represented by formula II serves as the key intermediate through a series of reactions. The new bisoxazoline ligand developed by the present application can be used in catalytic organic reaction, in particular as a chiral bisoxazoline ligand that is widely used in many asymmetric catalytic reactions of metal catalysis, and thus it has economic practicability and industrial application prospect.

Abstract: The present disclosure provides a wrist training device. The wrist training device includes a handle, a central shaft, an adjusting device, and two counterweight wheels. The handle is sleeved on the central shaft. The central shaft includes a thick end and a thin end. One of the two counterweight wheels is fixedly connected to the thick end of the central shaft. Another one of the two counterweight wheels is rotatably connected to the thin end of the central shaft. A hollow groove is arranged on an end surface of the thin end of the central shaft. A plurality of limiting grooves are disposed on a circumferential surface of the thin end of the central shaft. Each counterweight wheels is of an eccentric structure. The adjusting device is arranged on the thin end of the central shaft and arranged in the other counterweight wheel.

Abstract: The invention discloses a tetramethyl-7,7?-spirobiindane-based phosphinooxazoline ligand compound and its preparation method and use. The phosphinooxazoline ligand compound is a compound having a structure shown in general formula I or an enantiomer, a raceme or a diastereoisomer thereof. The phosphinooxazoline ligand obtained through a series of reaction steps using cheap and easily available 3,3,3?,3?-tetramethyl-1,1?-spirobiindane-6,6?-diol as a starting material. The novel phosphinooxazoline ligand developed in the invention can be used to organic catalytic reactions, especially as a chiral phosphinooxazoline ligand widely used in metal-asymmetric catalytic reactions, having economical practicality and industrial application prospects.

Abstract: The invention discloses a tetramethyl-7,7?-spirobiindane-based phosphinooxazoline ligand compound and its preparation method and use. The phosphinooxazoline ligand compound is a compound having a structure shown in general formula I or an enantiomer, a raceme or a diastereoisomer thereof. The phosphinooxazoline ligand obtained through a series of reaction steps using cheap and easily available 3,3,3?,3?-tetramethyl-1,1?-spirobiindane-6,6?-diol as a starting material. The novel phosphinooxazoline ligand developed in the invention can be used to organic catalytic reactions, especially as a chiral phosphinooxazoline ligand widely used in metal-asymmetric catalytic reactions, having economical practicality and industrial application prospects.

Abstract: An MOFs composite electrode material for supercapacitors includes: a Ni-BSC matrix, and a PEDOT coating layer coated on the Ni-BTC matrix, wherein a molar ratio of EDOT to Ni-BTC is 1:(1-4) based on a molar amount of EDOT monomer. A method for preparing the MOFs composite electrode material includes steps of: using nickel nitrate hexahydrate and benzenetricarboxylic acid as raw materials to synthesize Ni-BTC by a hydrothermal method; and using a liquid phase method to grow PEDOT on a surface of the Ni-BTC. An MOFs composite electrode slurry and a working electrode for the supercapacitors including the above MOFs composite electrode material or a MOFs composite electrode material prepared by the above method are also provided. The MOFs composite electrode material provided by the present invention combines advantages of Ni-BTC and PEDOT.