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Online since: August 2006
Authors: Katsuaki Suganuma, Motoki Kaneno, Kiyoko Sakamoto, Shunro Yamaguchi
The composition and structures of the calcium phosphate-AMP
layered material were estimated based on elemental analysis, thermal analysis, and spectroscopic
analyses.
About 30 wt% of the composite comprises AMP, which is oriented in alternately layered structure of AMP and calcium phosphate layers.
Results and Discussion Composition and Structure.
TEM�photographs of the products as shown in Fig. 2 (c) provided the evidence in confirmation of the layered structure with about 3 nm of interlayer distance
Elliot: Structure and Chemistry of the Apatites and Other Calcium Orthophosphate (Elsevier Science B.
About 30 wt% of the composite comprises AMP, which is oriented in alternately layered structure of AMP and calcium phosphate layers.
Results and Discussion Composition and Structure.
TEM�photographs of the products as shown in Fig. 2 (c) provided the evidence in confirmation of the layered structure with about 3 nm of interlayer distance
Elliot: Structure and Chemistry of the Apatites and Other Calcium Orthophosphate (Elsevier Science B.
Online since: November 2016
Authors: Susanne Staehlke, Karine Anselme, Birgit Finke, Matthias Schnabelrauch, Henrike Rebl, J. Barbara Nebe, Caroline Moerke, Christiane A. Helm, Marcus Frank
We reduced the physical complexity of the stochastically structured Ti-CB surface and introduced regular micro-structures (pillars, grooves) in different dimensions using deep reactive ion etching (Fig. 2).
Fig. 2: Osteoblast morphology on micro-grooved structures (width x height: 2 x 2 µm).
PPAAm Fig. 4: Importance of plasma chemistry on the cell behavior on micro-pillars.
Nebe, Impact of plasma chemistry versus titanium surface topography on osteoblast orientation, Acta Biomater. 8 (2012) 3840-3851.
Rychly, Topology-dependent cellular interactions – Cell structure-cell function dependence on titanium surfaces.
Fig. 2: Osteoblast morphology on micro-grooved structures (width x height: 2 x 2 µm).
PPAAm Fig. 4: Importance of plasma chemistry on the cell behavior on micro-pillars.
Nebe, Impact of plasma chemistry versus titanium surface topography on osteoblast orientation, Acta Biomater. 8 (2012) 3840-3851.
Rychly, Topology-dependent cellular interactions – Cell structure-cell function dependence on titanium surfaces.
Online since: November 2022
Authors: Andrey N. Dmitriev, Galina Yu. Vitkina, Elena A. Vyaznikova, Roman V. Alektorov
Study of the Strength Characteristics of Agglomerate Depending on its Structure and Phase Composition
A.N.
By the amount of 2CaO·SiO2 occupies a small volume in the structure of the agglomerate, while it does not create good adhesion between the ore phases.
It is possible that the α- and γ-Ca2SiO4 phases are present in the structure, but their own set of reflections on diffractograms is minimal (Table 2).
The main structure of the agglomerate with a basicity from 1.2 to 3.0 are magnetite, hematite and silicates.
Webster, A review of the chemistry, structure and formation conditions of silico-ferrite of calcium and aluminum (‘SFCA’) phases, ISIJ International, 58-12 (2018), 2157-2172
By the amount of 2CaO·SiO2 occupies a small volume in the structure of the agglomerate, while it does not create good adhesion between the ore phases.
It is possible that the α- and γ-Ca2SiO4 phases are present in the structure, but their own set of reflections on diffractograms is minimal (Table 2).
The main structure of the agglomerate with a basicity from 1.2 to 3.0 are magnetite, hematite and silicates.
Webster, A review of the chemistry, structure and formation conditions of silico-ferrite of calcium and aluminum (‘SFCA’) phases, ISIJ International, 58-12 (2018), 2157-2172
Online since: August 2014
Authors: Wu Ying Zhang, Bao Hua Zhang
Synthesis of Aqueous Non-Isocyanate Polyurethane
Wu-ying Zhang 1, a and Bao-hua Zhang 1, b
1 School of Applied Chemistry and Biological Technology, Shenzhen Polytechnic, Shenzhen 518055, People’s Republic of China
azhangwuying@szpt.edu.cn, blifefree@163.com
Keywords: Aqueous, Cyclic carbonate, Non-isocyanate polyurethane.
The structure of emulsion and aqueous non-isocyanate polyurethane was characterized by FTIR.
The structure of cyclic carbonate emulsion and aqueous non-isocyanate polyurethane was characterized by FTIR.
Doklady Physical Chemistry.
The structure of emulsion and aqueous non-isocyanate polyurethane was characterized by FTIR.
The structure of cyclic carbonate emulsion and aqueous non-isocyanate polyurethane was characterized by FTIR.
Doklady Physical Chemistry.
Online since: June 2017
Authors: Xiao Rong Li, A.Q. ZHANG, Chang Jun Xue, Da Wei Zhang, Xing Qi Huang
The structure of polycarboxylates water reducing agent molecular is comb type.
Under the action of electrostatic repulsion, the mutual repulsion of the cement particles makes the flocculation structure disperse to form a relatively stable suspension structure.
According to the theory of special resistance of polymer colloid chemistry, the more the overlap is, the larger the spatial resistance is, which leads to water reduction and slump loss control.
Systematic research on the relationship between molecular structure and application performance of polycarboxylatewater-reducing agent may help us in design and synthesis of the material with desired molecular structure.
Liu,Research on synthesis and action mechanism of polycarboxylate superplasticizer, Frontiers of Chemistry in China, 2(2007)322-325
Under the action of electrostatic repulsion, the mutual repulsion of the cement particles makes the flocculation structure disperse to form a relatively stable suspension structure.
According to the theory of special resistance of polymer colloid chemistry, the more the overlap is, the larger the spatial resistance is, which leads to water reduction and slump loss control.
Systematic research on the relationship between molecular structure and application performance of polycarboxylatewater-reducing agent may help us in design and synthesis of the material with desired molecular structure.
Liu,Research on synthesis and action mechanism of polycarboxylate superplasticizer, Frontiers of Chemistry in China, 2(2007)322-325
Online since: August 2022
Authors: Dwi Siswanta, Mudasir Mudasir, Rosati Sabdowati, Dadan Hermawan
The crystal structure of the AGP with code 3KQ0 was obtained from the PDB database.
The chemical structure of the ketorolac ligand was drawn using GaussView software.
The optimized structure of ketorolac compounds is shown in Fig. 1.
The optimized structure of ketorolac compound Molecular docking.
Sevvanthi, Molecular structure, spectroscopic (FT-IR, FT-Raman, NMR, UV-VIS), chemical reactivity and biological examinations of Ketorolac, Journal of Molecular Structure. 1210 (2020) 128040
The chemical structure of the ketorolac ligand was drawn using GaussView software.
The optimized structure of ketorolac compounds is shown in Fig. 1.
The optimized structure of ketorolac compound Molecular docking.
Sevvanthi, Molecular structure, spectroscopic (FT-IR, FT-Raman, NMR, UV-VIS), chemical reactivity and biological examinations of Ketorolac, Journal of Molecular Structure. 1210 (2020) 128040
Online since: June 2010
Authors: J. Podwórny, Justyna Zawada
A higher degree of order in the structure of C1 tridymite may be observed, manifesting itself in a
greater regularity in the structure of SiO4 tetrahedron rings, (Fig. 3).
C1 structure, seen along axis: a)-x, b)-z.
F1 structure seen along axis: a)-x, b)-z.
Appelman, The Crystal Structure of Low Tridymite, Acta Cryst. (1978).
Handke, Crystal Chemistry of Silicates (Krystalochemia krzemianów), Wyd.
C1 structure, seen along axis: a)-x, b)-z.
F1 structure seen along axis: a)-x, b)-z.
Appelman, The Crystal Structure of Low Tridymite, Acta Cryst. (1978).
Handke, Crystal Chemistry of Silicates (Krystalochemia krzemianów), Wyd.
Online since: March 2014
Authors: Rosari Saleh, Randi Azmi, Nadia Febiana Djaja
All the diffraction peaks at angles 2θ of 31.4, 34.0, 35.9, 47.2, 56.3, 62.5, 67.6, and 68.8 correspond to the reflection from (100), (002), (101), (102), (110), (103), (200) and (112) the crystal planes of the hexagonal wurtzite zincoxide structure.
Sample at.% a (Å) c (Å) nm
Eg (eV)
Bare- Mn doped ZnO / without zeolite
6
3.2519
5.2142
16
3.30
Zeolite modified Mn doped ZnO
3
3.2507
5.2085
21.5
3.31
4
3.2510
5.2103
20
3.29
6
3.2529
5.2109
19.5
3.26
15
3.2562
5.2145
19
3.21
To analyze the structure of all samples the FTIR measurements were also used.
Since MB is a cationic dye, its structure becomes positively charges when it is dissolved in water.
[3] Qi Xiao, Chi Yao:Materials Chemistry and Physics Vol. 130 (2011), p. 5-9
Khushalani:Inorganic Chemistry Vol. 48 (2009), p. 3508
Sample at.% a (Å) c (Å)
Since MB is a cationic dye, its structure becomes positively charges when it is dissolved in water.
[3] Qi Xiao, Chi Yao:Materials Chemistry and Physics Vol. 130 (2011), p. 5-9
Khushalani:Inorganic Chemistry Vol. 48 (2009), p. 3508
Online since: September 2019
Authors: Dong Won Lee, E.S. Vasilyeva, Pu Guang Ji
Generally it was observed that powder agglomeration shows to be related to quantity of alumina particles in structure after identical powder preparation procedure.
Nasibulin, Gas-phase synthesis and control of structure and thickness of graphene layers on copper substrates, Metal Science and Heat Treatment 58 (2016) 40-45
Mikhailov, Effect of hot pressing modes on the structure and properties of an ‘aluminum – carbon nanofibers’ composite material, Metal Science and Heat Treatment 56 (2015) 525-530
Compaction and sintering behaviour of glass–alumina composites, Materials Chemistry and Physics, 67 (2001) 220-225
Gysei, Metallokhimiya (Metal Chemistry).
Nasibulin, Gas-phase synthesis and control of structure and thickness of graphene layers on copper substrates, Metal Science and Heat Treatment 58 (2016) 40-45
Mikhailov, Effect of hot pressing modes on the structure and properties of an ‘aluminum – carbon nanofibers’ composite material, Metal Science and Heat Treatment 56 (2015) 525-530
Compaction and sintering behaviour of glass–alumina composites, Materials Chemistry and Physics, 67 (2001) 220-225
Gysei, Metallokhimiya (Metal Chemistry).
Online since: June 2014
Authors: Na Liu, Jing Wen Zhang, Hua Ping Wang
Fig. 2 Chemical Structure of plasticizing agents investigated
In this paper, the plasticization effect of ILs and the interaction between ILs and CDA were investigated.
Purz, et al, Structure formation of regenerated cellulose materials from NMMO-solutions, Progress in Polymer Science. 2001 (26) 1473-1524
Heinze, New ionic polymers by cellulose functionalization, Macromolecular Chemistry and Physics. 1998 (199) 2341-2364
Meyer, Plasticizers for cellulose acetate and cellulose acetate butyrute, Industrial and Engineering Chemistry. 1940 (32) 1053-1060
Wu, Investigation of the hydrogen-bond structure of cellulose diacetate by two-dimensional infrared correlation spectroscopy, Carbohydrate Polymers. 2008 (74) 509-513
Purz, et al, Structure formation of regenerated cellulose materials from NMMO-solutions, Progress in Polymer Science. 2001 (26) 1473-1524
Heinze, New ionic polymers by cellulose functionalization, Macromolecular Chemistry and Physics. 1998 (199) 2341-2364
Meyer, Plasticizers for cellulose acetate and cellulose acetate butyrute, Industrial and Engineering Chemistry. 1940 (32) 1053-1060
Wu, Investigation of the hydrogen-bond structure of cellulose diacetate by two-dimensional infrared correlation spectroscopy, Carbohydrate Polymers. 2008 (74) 509-513