農産物の最適貿易政策―最大値原理の応用による動学的最適化の視点から―

A reaction of bis(triphenylphosphine)palladium dibromide with white phosphorus in the presence of NaBPh4 selectively gives phosphorous acid H3PO3. The mechanism of the formation involves coordination of a white phosphorus molecule, ligand exchange, and hydrolysis of the coordinated P4 molecule in the coordination sphere of palladium. © 2010 Springer Science+Business Media, Inc

Activation and transformation of white phosphorus by palladium(ii) complexes

A reaction of bis(triphenylphosphine)palladium dibromide with white phosphorus in the presence of NaBPh4 selectively gives phosphorous acid H3PO3. The mechanism of the formation involves coordination of a white phosphorus molecule, ligand exchange, and hydrolysis of the coordinated P4 molecule in the coordination sphere of palladium. © 2010 Springer Science+Business Media, Inc

AUTOMATIC DETECTION AND RECOGNITION OF 3D MANUAL GESTURES FOR HUMAN-MACHINE INTERACTION

In this paper, we propose an approach to detect and recognize 3D one-handed gestures for human-machine interaction. The logical structure of the modules of the system for recording a gestural database is described. The logical structure of the database of 3D gestures is presented. Examples of frames showing gestures in the format of Full High Definition, in the map depth mode and in the infrared illustrated. Models of a deep convolutional network for detecting faces and hand shapes are described. The results of automatic detection of the area with the face and the shape of the hand are given. Identified the distinctive features of the gesture at a certain point in time. The process of recognizing 3D one-handed gestures is described. Due to its versatility, this method can be used in tasks of biometrics, computer vision, machine learning, automatic systems of face recognition, sign languages

Selective synthesis of nanosized palladium phosphides from white phosphorus

The reaction of white phosphorus with the palladium(0) complex [Pd 2(dba)3] (dba is dibenzylideneacetone) leads to stable associates [Pd(P4)]n. The coordination polymer obtained is stabilized in a solid state via the formation of nanosized palladium phosphides Pd3P2 and Pd6P with average particle sizes of 140 and 65 nm, respectively. © 2011 Mendeleev Communications. All rights reserved

Selective synthesis of nanosized palladium phosphides from white phosphorus

The reaction of white phosphorus with the palladium(0) complex [Pd 2(dba)3] (dba is dibenzylideneacetone) leads to stable associates [Pd(P4)]n. The coordination polymer obtained is stabilized in a solid state via the formation of nanosized palladium phosphides Pd3P2 and Pd6P with average particle sizes of 140 and 65 nm, respectively. © 2011 Mendeleev Communications. All rights reserved

Selective synthesis of nanosized palladium phosphides from white phosphorus

The reaction of white phosphorus with the palladium(0) complex [Pd 2(dba)3] (dba is dibenzylideneacetone) leads to stable associates [Pd(P4)]n. The coordination polymer obtained is stabilized in a solid state via the formation of nanosized palladium phosphides Pd3P2 and Pd6P with average particle sizes of 140 and 65 nm, respectively. © 2011 Mendeleev Communications. All rights reserved

Selective synthesis of nanosized palladium phosphides from white phosphorus

The reaction of white phosphorus with the palladium(0) complex [Pd 2(dba)3] (dba is dibenzylideneacetone) leads to stable associates [Pd(P4)]n. The coordination polymer obtained is stabilized in a solid state via the formation of nanosized palladium phosphides Pd3P2 and Pd6P with average particle sizes of 140 and 65 nm, respectively. © 2011 Mendeleev Communications. All rights reserved