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Online since: May 2011
Authors: Hai Ning Cui, Chun Zheng, Sheng Nan Sun, Li Min Ma, B Marí
The characteristics of their structure and fluorescence are disclosed.
The multilayer has a periodic layered structure with a layer spacing of 2.2 nm.
Chen (Changchun Institute of Applied Chemistry) for the supplied sample and discussion, Mr.
Chen: Chinese Journal of Applied Chemistry Vol.16(6) (1999) p.33 [8] J.F.C.
Richard: European Journal of Organic Chemistry Vol.16 (2005) p. 3499 [9] V.
The multilayer has a periodic layered structure with a layer spacing of 2.2 nm.
Chen (Changchun Institute of Applied Chemistry) for the supplied sample and discussion, Mr.
Chen: Chinese Journal of Applied Chemistry Vol.16(6) (1999) p.33 [8] J.F.C.
Richard: European Journal of Organic Chemistry Vol.16 (2005) p. 3499 [9] V.
Online since: April 2014
Authors: Qing Lin, Rui Jun Wang, Hai Fu Huang, Yun He, Cheng Long Lei
According to the reaction of cyanide-based unsaturated ligand precursor (molecular fragments)[BLy(CN)x]n-with the metal ions or complex unsaturated ligand, it is easy to control the structure of molecular magnets and tune up the magnetic properties.
Introduction In recent decades, design and synthesis of molecule-based magnets, involving many fields such as chemistry, physics, materials and life sciences, has become one of the hot research projects on the physics and chemistry nowadays [1-5].
In that field hexacyanoferrates metal ions [M(CN)6]n-(M = Fe, Cr, Mn, Co) play an important role due to their special structure and outstanding magnetic properties as molecule-based magnets, have been used to construct a family of molecule-based magnets with interesting structures and properties.
According to the reaction of cyanide-based unsaturated ligand precursor (molecular fragments)[BLy(CN)x]n-with the metal ions or complex unsaturated ligand, it is easy to control the structure of molecular magnets and tune up the magnetic properties.
[7] C.W.Ng,J,Ding,Y.Shi,L.MJournal of Physics and Chemistry of Solids 2001,62:767-775
Introduction In recent decades, design and synthesis of molecule-based magnets, involving many fields such as chemistry, physics, materials and life sciences, has become one of the hot research projects on the physics and chemistry nowadays [1-5].
In that field hexacyanoferrates metal ions [M(CN)6]n-(M = Fe, Cr, Mn, Co) play an important role due to their special structure and outstanding magnetic properties as molecule-based magnets, have been used to construct a family of molecule-based magnets with interesting structures and properties.
According to the reaction of cyanide-based unsaturated ligand precursor (molecular fragments)[BLy(CN)x]n-with the metal ions or complex unsaturated ligand, it is easy to control the structure of molecular magnets and tune up the magnetic properties.
[7] C.W.Ng,J,Ding,Y.Shi,L.MJournal of Physics and Chemistry of Solids 2001,62:767-775
Online since: September 2013
Authors: Parman Setyamartana, Abdul Munir Hidayat Syah Lubis, Mustafar Sudin, Bambang Ari-Wahjoedi
Physically and chemically, jatropha oil structure is mainly created from triglycerides.
The structure of Octadecyl 3-(3,5-di-tert-butyl-4-hydroxyphenyl)propionate is shown in Figure 1.
Green chemistry, 2007. 9: p. 469-474
Migdal, Antioxidants, in Lubricant additives: Chemistry and applications L.R.
Migdal, Antioxidants, in Lubricant Additives - Chemistry and Applications, L.R.
The structure of Octadecyl 3-(3,5-di-tert-butyl-4-hydroxyphenyl)propionate is shown in Figure 1.
Green chemistry, 2007. 9: p. 469-474
Migdal, Antioxidants, in Lubricant additives: Chemistry and applications L.R.
Migdal, Antioxidants, in Lubricant Additives - Chemistry and Applications, L.R.
Online since: January 2010
Authors: Jin Sheng Liang, Li Juan Wang, Guang Chuan Liang, Yan Ding
With the development in cyclic economy and
energy-saving and emission reduction technology, the exiting single speciality education, such as
materials, environment, energy, physics, chemistry, engineer, et al, can not satisfy the urgent
demand for compound technological talents.
The basic performance consists of mineral surface adsorption effect, pores filtration effect, structure control effect, ion interchange effect, chemical activation effect, physical effect, nanometer effect and organism interaction effect, and so on.
The environment mineral materials is the interaction, infiltration and amalgamation of quite many of subjects involved in environment science, mineral science, materials science, engineering science, physics and chemistry.
The graduate education course system of EEFMS bases on the principle of modern crystal chemistry, environment chemistry, thermodynamics and kinetics of materials, ecological environment functional materials, technology contract law, protection of intellectual property, products quality supervision and standardization.
These education course systems above make students' knowledge structure with foresight and establish theory base for the birth and growth of composite technological talents. 4.3 Industry Academy Research Base and Academic Communication Institutes A series of high level industry academy research bases have been set up, which combines technology with industry, economy and practice.
The basic performance consists of mineral surface adsorption effect, pores filtration effect, structure control effect, ion interchange effect, chemical activation effect, physical effect, nanometer effect and organism interaction effect, and so on.
The environment mineral materials is the interaction, infiltration and amalgamation of quite many of subjects involved in environment science, mineral science, materials science, engineering science, physics and chemistry.
The graduate education course system of EEFMS bases on the principle of modern crystal chemistry, environment chemistry, thermodynamics and kinetics of materials, ecological environment functional materials, technology contract law, protection of intellectual property, products quality supervision and standardization.
These education course systems above make students' knowledge structure with foresight and establish theory base for the birth and growth of composite technological talents. 4.3 Industry Academy Research Base and Academic Communication Institutes A series of high level industry academy research bases have been set up, which combines technology with industry, economy and practice.
Online since: October 2015
Authors: Seyed Majed Modaresi, Ali Nakhaei Pour
Zamani, FischerTropsch Synthesis with Fe/Cu/La/SiO2 Nano-Structured Catalyst, Journal of Nanoscience and Nanotechnology, 9 (2009) 4425-4429
Zarkesh, Deactivation studies of nano-structured iron catalyst in Fischer-Tropsch synthesis, Journal of Natural Gas Chemistry, 19 (2010) 333-340
Scholten, Studies on pore structure of adsorbents and catalysts: II.
Zarkesh, Kinetics studies of nano-structured iron catalyst in Fischer-Tropsch synthesis, Journal of Natural Gas Chemistry, 19 (2010) 441-445
Zarkesh, Kinetics of the water-gas shift reaction in Fischer-Tropsch synthesis over a nano-structured iron catalyst, Journal of Natural Gas Chemistry, 19 (2010) 362-368.
Zarkesh, Deactivation studies of nano-structured iron catalyst in Fischer-Tropsch synthesis, Journal of Natural Gas Chemistry, 19 (2010) 333-340
Scholten, Studies on pore structure of adsorbents and catalysts: II.
Zarkesh, Kinetics studies of nano-structured iron catalyst in Fischer-Tropsch synthesis, Journal of Natural Gas Chemistry, 19 (2010) 441-445
Zarkesh, Kinetics of the water-gas shift reaction in Fischer-Tropsch synthesis over a nano-structured iron catalyst, Journal of Natural Gas Chemistry, 19 (2010) 362-368.
Online since: November 2014
Authors: Hardev Singh Virk, Parmendra Kumar Bajpai, S. Yadav, A. Tiwari
Chalcogenide semiconductor nanoparticles and their self-assembly structures have become the most explored group of semiconductor nanomaterials due to the interesting physics involved in quantum confinement, surface chemistry and variety of applications.
,Modern Chemistry, New York,1982, pp. 84
Chen, Large-Scale and Shape-Controlled Syntheses of Three-Dimensional CdS Nanocrystals with Flowerlike Structure, Journal of Physical Chemistry C 112 (4)(2008) 1001-1007
Chen, Large-Scale and Shape-Controlled Syntheses of Three-Dimensional CdS Nanocrystals with Flowerlike Structure, Journal of Physical Chemistry C 112 (2008) 1001-1007
Motevalli, Synthesis and X-Ray Single Crystal Structures of Cadmium(II) Complexes: CdCl(2) CS(NHCH(3))(2) (2) and CdCl(2)(CS(NH(2))NHC(6)H(5))(4) - Single Source Precursors to CdS Nanoparticles, E-Journal of Chemistry 7(4) (2010) 1148-1155
,Modern Chemistry, New York,1982, pp. 84
Chen, Large-Scale and Shape-Controlled Syntheses of Three-Dimensional CdS Nanocrystals with Flowerlike Structure, Journal of Physical Chemistry C 112 (4)(2008) 1001-1007
Chen, Large-Scale and Shape-Controlled Syntheses of Three-Dimensional CdS Nanocrystals with Flowerlike Structure, Journal of Physical Chemistry C 112 (2008) 1001-1007
Motevalli, Synthesis and X-Ray Single Crystal Structures of Cadmium(II) Complexes: CdCl(2) CS(NHCH(3))(2) (2) and CdCl(2)(CS(NH(2))NHC(6)H(5))(4) - Single Source Precursors to CdS Nanoparticles, E-Journal of Chemistry 7(4) (2010) 1148-1155
Online since: September 2022
Authors: Rozana Aina Maulat Osman, Mohd Sobri Idris, Ku Noor Dhaniah Ku Muhsen, Siti Nur Adlina Norazman, Mogalahalli Venkatesh Reddy, Nor Zachy Fernandez
High purity Li7La3Zr1.0Sn1.0O12 samples that formed garnet-type crystal structure were prepared using biopolymer sol-gel method.
The structure phase analysis of Li7La3Zr1.0Sn1.0O12 powder was determined by using X-ray Diffraction (XRD).
Chemistry of Materials, 2010. 22(3): p. 587-603
Journal of Materials Chemistry, 2012. 22(30): p. 15357
Chemistry of Materials, 2015. 27(19): p. 6571-6582
The structure phase analysis of Li7La3Zr1.0Sn1.0O12 powder was determined by using X-ray Diffraction (XRD).
Chemistry of Materials, 2010. 22(3): p. 587-603
Journal of Materials Chemistry, 2012. 22(30): p. 15357
Chemistry of Materials, 2015. 27(19): p. 6571-6582
Online since: November 2007
Authors: Hong Hai Kuang, Yun Yun Kuang, Ze Hong Chen, Zhi Hong Wu, Bo Jiang
Results of the
technological measurements show that surface chemistry is affected throughout the surface
modification process, finally leading to a complete and homogeneous vinyl compound overlayer on
top of the titanium samples.
According to the previous work, although titanium (Ti) is a very excellent biocompatible material with the soft tissue, it didn't contact the tissue by the structure of hemidesmosomes same as the natural organs [1].
J Bo, H Guanglin: Radiation Physics and Chemistry. 69(2004), 433-438 5.
According to the previous work, although titanium (Ti) is a very excellent biocompatible material with the soft tissue, it didn't contact the tissue by the structure of hemidesmosomes same as the natural organs [1].
J Bo, H Guanglin: Radiation Physics and Chemistry. 69(2004), 433-438 5.
Online since: October 2015
Authors: Vladimir Iosifovich Apanasevich, Aleksandra Viktorovna Lagureva, Alina Sergeevna Polkovnikova, Pavel Aleksandrovich Lukyanov, Vladimir Nikolaevich Kustov, Ksenya Sergeevna Lukуanenko
., Vladivostok 690950, Russia
2Pacific State Medical University, 2 Ostryakova Avenue, Vladivostok 690002, Russia
3G.B.Elyakov Pacific Institute of Bioorganic Chemistry FEB RAS, 159 100-let Vladivostoku Avenue, Vladivostok, 690022, Russia
4Vladivostok¢ s Branch of the Customs Academy, 16в Strelkovaya St., Vladivostok, 690034, Russia
a,*ks.lukyanenko@gmail.com, boncolog222@gmail.com, csandy767@mail.ru, dpolkovnikova_a@list.ru, epaluk@mail.ru, fkvn-om@mail.ru
Keywords: Cisplatin, Platinum, Tumor, Radiomodification, Radiation therapy
Abstract.
Thus, the platinum atoms are located in close proximity to the DNA tumor cells, and the generation of secondary radiation on the platinum atoms is more likely to damage its structure.
Elyakov Pacific Institute of Bioorganic Chemistry Far-Eastern Branch of the Russian Academy of Sciences.
Impact of Cisplatin on the recent development of Pt coordination chemistry: a case study.Coordination Chemistry Reviews 182(1999)263
The mechanism of action of platinum anti-tumor drugs.Pure & Applied Chemistry 59 (2)(1987)181
Thus, the platinum atoms are located in close proximity to the DNA tumor cells, and the generation of secondary radiation on the platinum atoms is more likely to damage its structure.
Elyakov Pacific Institute of Bioorganic Chemistry Far-Eastern Branch of the Russian Academy of Sciences.
Impact of Cisplatin on the recent development of Pt coordination chemistry: a case study.Coordination Chemistry Reviews 182(1999)263
The mechanism of action of platinum anti-tumor drugs.Pure & Applied Chemistry 59 (2)(1987)181
Online since: June 2013
Authors: Laura Vikele, Arnis Treimanis, Marianna Laka
Molecular structure of chitosan is similar to that of cellulose and it promotes the creation of strong bonding in the paper structure [1-3].
Molecular structure of chitosan (Fig. 1) is similar to celluloses macromolecule, but it is positively charged due to the presence of amino-groups in the structure and thus chitosan promotes stronger bonds with negatively charged cellulose carboxyl and other functional groups.
Journal of Agricultural and Food Chemistry, 1991, 39, 8,1527-1532 pp
Structure and energetics of the hydronium hydration shells.
Journal of Physical Chemistry, 2007, 111, 12, 2253–2256 pp.
Molecular structure of chitosan (Fig. 1) is similar to celluloses macromolecule, but it is positively charged due to the presence of amino-groups in the structure and thus chitosan promotes stronger bonds with negatively charged cellulose carboxyl and other functional groups.
Journal of Agricultural and Food Chemistry, 1991, 39, 8,1527-1532 pp
Structure and energetics of the hydronium hydration shells.
Journal of Physical Chemistry, 2007, 111, 12, 2253–2256 pp.