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Online since: January 2020
Authors: Aleksey I. Khatsrinov, Lenar N. Shafigullin, Alsu Yusupova
Khatsrinov, Titanium Tetrachloride as Electrofilic Activator in Technology of Inorganic Polysulfides, Journal of Quantum Chemistry. 111 (2011) 2575-2578
Senning (Ed.), Sulfur in Organic and Inorganic Chemistry, Marsel Dekker, New York, 1972
Meyer (Ed.), Elemental Sulfur, Chemistry and Physics, Interscience Publ., New York, 1965
Chuyko Chemistry of silica surface: surface structure, active centers, sorption mechanisms, Kiev, 1992
Iler The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties and Biochemistry of Silica, Wiley-Interscience, 1979.
Senning (Ed.), Sulfur in Organic and Inorganic Chemistry, Marsel Dekker, New York, 1972
Meyer (Ed.), Elemental Sulfur, Chemistry and Physics, Interscience Publ., New York, 1965
Chuyko Chemistry of silica surface: surface structure, active centers, sorption mechanisms, Kiev, 1992
Iler The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties and Biochemistry of Silica, Wiley-Interscience, 1979.
Online since: May 2014
Authors: Yong Zhou Sun, Jiu Hua Chen, Vadym Drozd, Shah Najiba
Robinson, Room-temperature structure of ammonia borane.
Australian Journal of Chemistry, 2007. 60(3): p. 149-153
The Journal of Physical Chemistry B, 2007. 111(4): p. 677-681
Canadian Journal of Chemistry, 2009. 87: p. 1235-1247
Inorganic Chemistry, 2003. 42(8): p. 2814-2816
Australian Journal of Chemistry, 2007. 60(3): p. 149-153
The Journal of Physical Chemistry B, 2007. 111(4): p. 677-681
Canadian Journal of Chemistry, 2009. 87: p. 1235-1247
Inorganic Chemistry, 2003. 42(8): p. 2814-2816
Online since: April 2013
Authors: Shao Yi Wu, Min Quan Kuang, Bo Tao Song, Xian Fen Hu
The results and the local structure of the system are discussed.
In addition, hyperfine structure constants were not quantitatively analyzed in a uniform way.
The dipolar hyperfine structure parameter P is 388 × 10−4 cm−1 [24] for 63Cu2+.
Qin, Journal of Physics and Chemistry of Solids, 64 (2004) 1419
McGarvey, Journal of Physical Chemistry, 71 (1967) 51
In addition, hyperfine structure constants were not quantitatively analyzed in a uniform way.
The dipolar hyperfine structure parameter P is 388 × 10−4 cm−1 [24] for 63Cu2+.
Qin, Journal of Physics and Chemistry of Solids, 64 (2004) 1419
McGarvey, Journal of Physical Chemistry, 71 (1967) 51
Online since: July 2011
Authors: Chao Li, Ying Liang Wei, You Qi Zhu, Shi De Wu
The X-ray diffraction was used to investigate the phase structure of the samples.
Their phase structure, morphology and photocatalytic activities were studied.
Wang: Radiation Physics and Chemistry Vol. 79 (2010), p. 1039 [4] J.M.
Duta: Materials Chemistry and Physics Vol. 112 (2008), p. 1078 [6] M.
Ritala: Journal of Photochemistry and Photobiology A: Chemistry Vol. 204 (2009), p. 200 [7] T.
Their phase structure, morphology and photocatalytic activities were studied.
Wang: Radiation Physics and Chemistry Vol. 79 (2010), p. 1039 [4] J.M.
Duta: Materials Chemistry and Physics Vol. 112 (2008), p. 1078 [6] M.
Ritala: Journal of Photochemistry and Photobiology A: Chemistry Vol. 204 (2009), p. 200 [7] T.
Online since: May 2023
Authors: O.I. Pomazkina, Elena G. Filatova
The structures of zeolites in a heulandite–clinoptilolite series are mutually similar.
Chemistry and ecology. 28, 5 (2012) 481
Pozhidaev, J. of Water Chemistry and Technology. 36, 6 (2014) 303
Breck, Zeolite Molecular Sieves: Structure, Chemistry and Use, New York: Interscience-Wiley, 1974, 771
[20] Zeolite Chemistry and Catalysis, Rabo I A Ed.
Chemistry and ecology. 28, 5 (2012) 481
Pozhidaev, J. of Water Chemistry and Technology. 36, 6 (2014) 303
Breck, Zeolite Molecular Sieves: Structure, Chemistry and Use, New York: Interscience-Wiley, 1974, 771
[20] Zeolite Chemistry and Catalysis, Rabo I A Ed.
Online since: March 2014
Authors: Fang Zhao, Su Li, Jun Shou Li, Ming Yuan Wang
The results show that the pure spinel structure of Ni0.5Zn0.5Fe2O4 are all formed when the composite micro/nanofibers are calcined at above 800°C.
Inorganic Chemistry. 24 (2008) 907-912
Inorganic Chemistry. 25(2009) 1018-1021
Zhang, Study on microwave absorption properties of manometer Ni0.50Zn0.50CexFe2-XO4 Ferrite by Chemistry Co-precipitation Method, J.
Yang, et al., Preparation and characterization of bamboo charcoal/ Ni0.5Zn0.5Fe2O4 composite with core-shell structure, J.
Inorganic Chemistry. 24 (2008) 907-912
Inorganic Chemistry. 25(2009) 1018-1021
Zhang, Study on microwave absorption properties of manometer Ni0.50Zn0.50CexFe2-XO4 Ferrite by Chemistry Co-precipitation Method, J.
Yang, et al., Preparation and characterization of bamboo charcoal/ Ni0.5Zn0.5Fe2O4 composite with core-shell structure, J.
Online since: August 2013
Authors: Yu Jun Yang
On the basis of electrical network theory, Klein and Randić [Journal of Mathematical Chemistry 12 (1993) 81-95] proposed the novel concept of resistance distance.
Furthermore, the sum of resistance distances between all pairs of vertices, known as the Kirchhoff index [1], is an important molecular structure descriptor.
There are several different lines of research, ranging from the computation of resistance distances and various properties on resistance distances such as sum rules, to the application of resistance distances in other fields such as random walks on graphs and quantum chemistry.
Furthermore, the sum of resistance distances between all pairs of vertices, known as the Kirchhoff index [1], is an important molecular structure descriptor.
There are several different lines of research, ranging from the computation of resistance distances and various properties on resistance distances such as sum rules, to the application of resistance distances in other fields such as random walks on graphs and quantum chemistry.
Online since: March 2016
Authors: Azhan Hashim, Azman Kasim, Mardhiah Abdullah, S.N.E. Shafieza
B2O3 is one of the most important forming oxides from the point view of physics and chemistry of glasses.
The replacement of PbO with higher molecular weight compared to that of B2O3 tend to increase the packing density of glass structures.
Gaafar, Materials Chemistry and Physics 115(2009) 280-286 [2] P.
Limkitjaroenporn et al., Journal of Physics and Chemistry of Solids 72( 2011) 245-251 [3] K.
Bindra, Radiation Physics and Chemistry 75 (2006) 959–966 [15] G.E.
The replacement of PbO with higher molecular weight compared to that of B2O3 tend to increase the packing density of glass structures.
Gaafar, Materials Chemistry and Physics 115(2009) 280-286 [2] P.
Limkitjaroenporn et al., Journal of Physics and Chemistry of Solids 72( 2011) 245-251 [3] K.
Bindra, Radiation Physics and Chemistry 75 (2006) 959–966 [15] G.E.
Online since: September 2016
Authors: Roman Evgenyevich Novikov, Oleg V. Slautin, Victor Georgievich Shmorgun
The Structure and Phase Composition of the Diffusion Zone in a Titanium and Steel Composite
V.G.
The paper studies the formation of the diffusion zone, its phase composition and the chemistry of its structural components.
Steel-side, the white interlayer borders on a thin TiC layer; titanium-side, the white interlayer borders on an acicular a+a’-Ti structure.
The chemistry of the “discharges” (≈ 25 % Fe and 75 % Ti) corresponds to the Ti(2,3)Fe intermetallic.
Scan electron microscope image of the wedgelike structures in the central area of the diffusion zone.
The paper studies the formation of the diffusion zone, its phase composition and the chemistry of its structural components.
Steel-side, the white interlayer borders on a thin TiC layer; titanium-side, the white interlayer borders on an acicular a+a’-Ti structure.
The chemistry of the “discharges” (≈ 25 % Fe and 75 % Ti) corresponds to the Ti(2,3)Fe intermetallic.
Scan electron microscope image of the wedgelike structures in the central area of the diffusion zone.
Online since: February 2018
Authors: Xiao Ling Liao, Qiu Hong Huang, Xin Yu Zhang, Mei Yang, Ze Yu Shao, Jin Xia Huang, Wen Feng Xu, Xiao Hu
The aerial view of the high-throughput screening microfluidic chip structure; b.
Three layers of the microfluidic chip (valve control layer, fluidic layer, glass); c. 3D structure of a chamber.
In 2012, Wang et al. used the three-dimensional net structure which is solidified by sodium alginate hydrogel to cultivate cells.
Chip Structure.
The structure can reach 64 conditions of drug action and get 192 biological signals during one experiment (Fig. 5)[48].
Three layers of the microfluidic chip (valve control layer, fluidic layer, glass); c. 3D structure of a chamber.
In 2012, Wang et al. used the three-dimensional net structure which is solidified by sodium alginate hydrogel to cultivate cells.
Chip Structure.
The structure can reach 64 conditions of drug action and get 192 biological signals during one experiment (Fig. 5)[48].