Abstract: An estrogen derivatization method uses a quaternary cation-containing 5-fluoro-2,4-dinitrophenyl compound represented by Formula (1): where in Formula (1), X is a quaternary cation. A mass spectrometry method includes derivatizing estrogen by the above estrogen derivatization method. A derivatization reagent derivatizing estrogen includes a quaternary cation-containing 5-fluoro-2,4-dinitrophenyl compound represented by Formula (1), where in Formula (1), X is a quaternary cation.

Abstract: A compound represented by Chemical formula 1: wherein n is an integer of 2 or more, is provided. Also provided is a derivatization reagent for derivatizing a diene-containing compound, including a compound represented by Chemical formula 1. Further provided is a synthesis method for a compound, including a nucleophilic substitution reaction between an aryl halide and a heterocyclic amine compound being saturated, the compound being represented by Chemical formula 1.

Abstract: A compound represented by Chemical formula 1: wherein n is an integer of 2 or more, is provided. Also provided is a derivatization reagent for derivatizing a diene-containing compound, including a compound represented by Chemical formula 1. Further provided is a synthesis method for a compound, including a nucleophilic substitution reaction between an aryl halide and a heterocyclic amine compound being saturated, the compound being represented by Chemical formula 1.

Abstract: Provided is a method for quantifying vitamin D, with the vitamin D contained in a biological sample being derivatized with a derivatization reagent and being measured with a mass spectrometer, the method including, a derivatization step of derivatizing n number of samples by using n types of 4-(4?-dimethylaminophenyl)-1,2,4-triazoline-3,5-dione (DAPTAD) isotopologues respectively as derivatization reagents, a mixing step of mixing the n types of derivatization samples obtained in the derivatization step, and a quantitative analysis step of subjecting each of the n types of vitamin D derivatives contained in the mixed sample obtained in the mixing step to quantitative analysis using a mass spectrometer.

Abstract: Provided is a method for derivatizing an s-cis-diene compound with a Cookson-type derivatization reagent, the method including adding, in a reaction stopping step of stopping a derivatization reaction of the s-cis-diene compound, a decomposition inhibitor to inhibit decomposition of a derivative to be obtained.

Abstract: Provided is a method for quantifying vitamin D, with the vitamin D contained in a biological sample being derivatized with a derivatization reagent and being measured with a mass spectrometer, the method including, a derivatization step of derivatizing n number of samples by using n types of 4-(4?-dimethylaminophenyl)-1,2,4-triazoline-3,5-dione (DAPTAD) isotopologues respectively as derivatization reagents, a mixing step of mixing the n types of derivatization samples obtained in the derivatization step, and a quantitative analysis step of subjecting each of the n types of vitamin D derivatives contained in the mixed sample obtained in the mixing step to quantitative analysis using a mass spectrometer.

Abstract: Provided is a method for derivatizing an s-cis-diene compound with a Cookson-type derivatization reagent, the method including adding, in a reaction stopping step of stopping a derivatization reaction of the s-cis-diene compound, a decomposition inhibitor to inhibit decomposition of a derivative to be obtained.

Abstract: In a circuit in which logic cells are regularly arranged, to supply to a substrate substrate potentials different from a power supply voltage and ground voltage which are supplied to sources of transistors in the cell, substrate potential supplying cells are arranged in a region in which the logic cells are arranged. The substrate potential supplying cells are connected to the substrate potentials through an n-type substrate potential NSUB line and p-type substrate potential PSUB line. The substrate potentials are supplied to apply them to the substrate. If the substrate potential lines are arranged in the logic cell region, the element area is greatly reduced. However, using the substrate potential supplying cells VSC can improve area efficiency.

Abstract: A data transmission circuit has a push-pull circuit including first and second MOS transistors, sequentially connected in series between a first power source potential node and a second potential node, to which a first data signal and a second data signal defined as an inverted signal of the first data signal are respectively supplied, an output capacitance connected between the second power source potential node and a connecting node between the MOS transistor and the second MOS transistor which serves as an output node of the push-pull circuit, a transfer gate connected to the output node of the push-pull circuit, a first inverter connected to the output node of the transfer gate, and a second inverter connected to the first inverter to form a feedback loop, whereby the data are transmitted by a low quantity of consumed electric power.