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Online since: December 2011
Authors: Chuan Ding, Jian Chun Zhang, Xue Qiang Liu, Hua Zhang, Xin Xing Feng
The chemical structure and surface topography has only a slight change with irradiation.
The changes in the peaks of irradiated sample may be due to break age of one or two bonds in the ladder structure, but it will not change the overall structure of polymer.
Applied Radiation Chemistry: Radiation Processing, John Wiley & Sons Interscience Publications Inc., New York, p. 366
Radiation Physics and Chemistry 76 (2007) 1728–1731
Principles of Radiation Chemistry; Edward Arnold: London, 1970.
The changes in the peaks of irradiated sample may be due to break age of one or two bonds in the ladder structure, but it will not change the overall structure of polymer.
Applied Radiation Chemistry: Radiation Processing, John Wiley & Sons Interscience Publications Inc., New York, p. 366
Radiation Physics and Chemistry 76 (2007) 1728–1731
Principles of Radiation Chemistry; Edward Arnold: London, 1970.
Online since: June 2020
Authors: Yi Yan, Wei Jia Peng, Rui Jun Fan, Guo Lin Cao, Xiao Hui Shen, Zhan Yuan Tian, Hua Jun Guo
Journal of Materials Chemistry A 2017, 5 (26), 13469-13474
Journal of Materials Chemistry A 2015, 3 (22), 11970-11975
Chemistry of Materials 2015, 27 (16), 5531-5542
Journal of Materials Chemistry A 2017, 5 (29), 15302-15309
Journal of Materials Chemistry A 2015, 3 (28), 14750-14758
Journal of Materials Chemistry A 2015, 3 (22), 11970-11975
Chemistry of Materials 2015, 27 (16), 5531-5542
Journal of Materials Chemistry A 2017, 5 (29), 15302-15309
Journal of Materials Chemistry A 2015, 3 (28), 14750-14758
Online since: August 2013
Authors: Bin Guo, Zhao Du, Jing Han, Shao Zuo Meng
(4) FRP serves as a environmental material such as corrosion resistance, fatigue resistance properties which can improve the service life of the structure, the structure material is incomparable.
But at the same time, compared with normal concrete, fire prevention performance of FRP composites deviation, which restricted the application of the product the structure, and become one of the problem to be solved in future.
Sander: Compilation of Henry’s law constants for inorganic and organic species of potential importance in environmental chemistry (Air Chemistry Department Max-Planck Institute of Chemistry, Germany, 1999) [6] G.G.
But at the same time, compared with normal concrete, fire prevention performance of FRP composites deviation, which restricted the application of the product the structure, and become one of the problem to be solved in future.
Sander: Compilation of Henry’s law constants for inorganic and organic species of potential importance in environmental chemistry (Air Chemistry Department Max-Planck Institute of Chemistry, Germany, 1999) [6] G.G.
Online since: August 2014
Authors: Hong Yu Zhou, Biao Yan
Quantum chemical investigation and detonation characterization of DNAZ·HCl
Biao Yan1,a, Hongyu Zhou2,b
1School of Chemistry and Chemical Engineering, Yulin University, Yulin 719000, China
2School of Chemistry and Chemical Engineering, Longdong University, Gansu 745000, China
adonghuhai123@163.com, bzhouhongyu23@163.com
Keywords: DNAZ·HCl, quantum chemical calculate, detonation characterization
Abstract: 3,3-Dinitroazetidinium hydrochloride (DNAZ·HCl) is a novel insensitive high energy explosive.
Fig. 1 Molecular structure of DNAZ·HCl Experimental The quantum chemical calculations.
According to crystal structure of DNAZ·HCl [9], a crystal unit was selected as the initial structure of DNAZ·HCl.
Song jirong (School of Chemistry and Chemical Engineering, northwest University, Xi’an, P.R.
Fig. 1 Molecular structure of DNAZ·HCl Experimental The quantum chemical calculations.
According to crystal structure of DNAZ·HCl [9], a crystal unit was selected as the initial structure of DNAZ·HCl.
Song jirong (School of Chemistry and Chemical Engineering, northwest University, Xi’an, P.R.
Online since: March 2012
Authors: Jerzy Dabrowski, Kamil Sobczak, Piotr Dłużewski, Miroslaw Kozlowski, Ewa Kowalska, Elzbieta Czerwosz, Bartlomiej S. Witkowski
Finally a carbon nanoporous film with like foam structure containing Pd nanograins was obtained.
The selected area electron diffraction (SAED) pattern from this structure revealed the {00.2} graphite ring.
Holleman, Inorganic chemistry academic press, 2001. 258 – 260
Earnshaw, Chemistry of the Elements (2nd ed.), Oxford Butterworth- Heinemann, 1997
Hudlický: Reductions in Organic Chemistry, Washington, D.C.
The selected area electron diffraction (SAED) pattern from this structure revealed the {00.2} graphite ring.
Holleman, Inorganic chemistry academic press, 2001. 258 – 260
Earnshaw, Chemistry of the Elements (2nd ed.), Oxford Butterworth- Heinemann, 1997
Hudlický: Reductions in Organic Chemistry, Washington, D.C.
Online since: September 2013
Authors: Johny Wahyuadi Soedarsono, R.I. Pramana, R. Kusumastuti, A. Rustandi
The main component of PILLE is known as quercetin which the molecular structures are shows by Fig. 3.
The structure of quercetin Fig. 4.
African Journal of Pure and Applied Chemistry 2(2008): 107-115
Andarwulan, et al., Flavonoid Content and Antioxidant Activity of Vegetables from Indonesia, Food Chemistry, 2010
Leaf Extract on the Corrosion of Aluminium in Tetraoxosulphate (VI) Acid, African Journal of Pure and Applied Chemistry, 4(2010): 158-165.
The structure of quercetin Fig. 4.
African Journal of Pure and Applied Chemistry 2(2008): 107-115
Andarwulan, et al., Flavonoid Content and Antioxidant Activity of Vegetables from Indonesia, Food Chemistry, 2010
Leaf Extract on the Corrosion of Aluminium in Tetraoxosulphate (VI) Acid, African Journal of Pure and Applied Chemistry, 4(2010): 158-165.
Online since: June 2019
Authors: Zhen Fa Liu, Ai Jia Wei, Wen Li, Li Hui Zhang
Ion doping for Li, Ni, Mn or O sites is an effective method to stabilize the structure and improve the electrochemical performance of LNMO material.
Roh, Journal of Industrial and Engineering Chemistry, 2015, 21: 731–735 [11] W.
Tong, Materials Chemistry and Physics, 2013, 138: 716–723
Xu, Industrial & Engineering Chemistry Research, 2017, 56: 175−182 [18] J.
Nan, Chemistry of Materials. 2015, 27: 7734−7742 [23] Y.
Roh, Journal of Industrial and Engineering Chemistry, 2015, 21: 731–735 [11] W.
Tong, Materials Chemistry and Physics, 2013, 138: 716–723
Xu, Industrial & Engineering Chemistry Research, 2017, 56: 175−182 [18] J.
Nan, Chemistry of Materials. 2015, 27: 7734−7742 [23] Y.
Online since: December 2014
Authors: Jing Li, Xin Liu, Chang Ping Wei, Feng Ming Wang, Sheng Nan Zhao, Li Dan Dong
New Preparation Method and Characterization of Nanosilver
Xin Liu, Chang-ping Wei*, Li-dan Dong, Sheng-nan Zhao, Jing Li,
Feng-ming Wang
School of Chemistry and Environmental Engineering,Changchun University of Science and Technology, Changchun 130022, China
*e-mail: changpingwei@hotmail.com
Key words: Nanosize silver particles, Precipitate composition, Thermal dtion, Preparation.
Thereby people can manufacture and use these small sizes with new properties and material structure, technical devices and systems.
Preparation of "green chemistry" nano-silver particles is particularly important, because the "green chemistry" is attentioned all over the world.
This preparation achieved the "green chemistry" requirement.
Each material has its characteristic microscopic crystal structure and morphology.
Thereby people can manufacture and use these small sizes with new properties and material structure, technical devices and systems.
Preparation of "green chemistry" nano-silver particles is particularly important, because the "green chemistry" is attentioned all over the world.
This preparation achieved the "green chemistry" requirement.
Each material has its characteristic microscopic crystal structure and morphology.
Online since: June 2003
Authors: Krzysztof Jan Kurzydlowski
In the manufacturing world, now characterized by growing
complexity and integrity of operations, such a structure of research institutions is a further obstacle
to improving cooperation between science and industry (see for example [1,2,3]).
Bridgemen torsion, angular channel extrusion and cyclic extrusion compression techniques are employed to obtain nano structures of Al, Ti, Fe and their alloys.
TITLE ACRONYM ORGANIZATION CONTACT High Pressure Methods in Optoelectronics, Nanotechnology And Biotechnology PRENABIO High Pressure Research Center, PAS sylvek@unipress.waw.pl Centre for Low Temperature Studies of Promising Materials for Applications CELTAM Institute for Low Temperature and Structure Research, PAS jklamut@int.pan.wroc.pl Krakow Research Centre of Molecular Catalysis and Soft Matter Chemistry CATCOLL Institute of Catalysis and Surface Chemistry, PAS nchaber@cyf-kr.edu.pl Physics and Technology of Photonic Nanostructures CEPHONA Institute of Electron Technology cambroz@ite.waw.pl New Technologies for Medical Applications: Studying and Production of Carbon Surfaces Allowing for Controllable Bioactivity NANODIAM Institute of Materials Science and Engineering, Technical University of Lodz rector@sir.p.lodz.pl Centre of Excellence in Nano- and Microscale Characterization and Development of Advanced
Materials NAMAM Institute of Metallurgy and Materials Science, PAS nmmoser@imim-pan.krakow.pl Centre of Excellence for Magnetic and Molecular Materials for Future Electronics MMMFE Institute of Molecular Physics, PAS Narcyz.Pislewski@ifmpan.poznan.pl Surface Phenomena and Reactions SURPHARE Institute of Physical Chemistry, PAS klatrat@ichf.edu.pl Centre for Photoactive Materials CPM Institute of Physical Chemistry, PAS klatrat@ichf.edu.pl Centre of Competence "High - Tech Textile" HTT Institute of Textile Architecture iat@iat.formus.pl Centre of Competence for Advanced Polymeric Materials of Industrial Importance POLMATIN Industrial Chemistry Research Institute Wojciech.LubiewaWielezynski@ichp.pl Center of Competence in Integrated Technical and Quality Systems for Corrosion Protection CORPROT Institute of Precision Engineering nakon@imp.edu.pl Centre of Competence for Aluminum Modern Technology and Integrating
of Aluminum Research Area Centra1 Institute of Non-Ferrous Metals zbigniews@imn.gliwic.pl Centre of Excellence for Advanced Chitin Materials and Structures CEChit Institute of Chemical Fibres iwch@mazurek.man.lodz.pl Nanometer-Scale Science and Advanced Materials NANOSAM Jagiellonian University ufwarcza@cyf-kr.edu.pl Centre of Competence in Safety of Pressure Equipment PRESAFE Warsaw University of Technology, Faculty of Science Materials and Engineering wku@rekt.pw.edu.pl Nanocrystalline Materials: Fabrication, Structure, Modelling, Properties and Applications NanoCentre Warsaw University of Technology, Faculty of Science Materials and Engineering wku@rekt.pw.edu.pl Centre of Excellence in Physics and Technology of Semiconductor Interfaces And Sensors CESIS Silesian University of Technology Rnauk.sekr@polsl.gliwice.pl Center of Excellence "Sol-Gel Materials And Nanotechnology" SGM&N Technical University of
Bridgemen torsion, angular channel extrusion and cyclic extrusion compression techniques are employed to obtain nano structures of Al, Ti, Fe and their alloys.
TITLE ACRONYM ORGANIZATION CONTACT High Pressure Methods in Optoelectronics, Nanotechnology And Biotechnology PRENABIO High Pressure Research Center, PAS sylvek@unipress.waw.pl Centre for Low Temperature Studies of Promising Materials for Applications CELTAM Institute for Low Temperature and Structure Research, PAS jklamut@int.pan.wroc.pl Krakow Research Centre of Molecular Catalysis and Soft Matter Chemistry CATCOLL Institute of Catalysis and Surface Chemistry, PAS nchaber@cyf-kr.edu.pl Physics and Technology of Photonic Nanostructures CEPHONA Institute of Electron Technology cambroz@ite.waw.pl New Technologies for Medical Applications: Studying and Production of Carbon Surfaces Allowing for Controllable Bioactivity NANODIAM Institute of Materials Science and Engineering, Technical University of Lodz rector@sir.p.lodz.pl Centre of Excellence in Nano- and Microscale Characterization and Development of Advanced
Materials NAMAM Institute of Metallurgy and Materials Science, PAS nmmoser@imim-pan.krakow.pl Centre of Excellence for Magnetic and Molecular Materials for Future Electronics MMMFE Institute of Molecular Physics, PAS Narcyz.Pislewski@ifmpan.poznan.pl Surface Phenomena and Reactions SURPHARE Institute of Physical Chemistry, PAS klatrat@ichf.edu.pl Centre for Photoactive Materials CPM Institute of Physical Chemistry, PAS klatrat@ichf.edu.pl Centre of Competence "High - Tech Textile" HTT Institute of Textile Architecture iat@iat.formus.pl Centre of Competence for Advanced Polymeric Materials of Industrial Importance POLMATIN Industrial Chemistry Research Institute Wojciech.LubiewaWielezynski@ichp.pl Center of Competence in Integrated Technical and Quality Systems for Corrosion Protection CORPROT Institute of Precision Engineering nakon@imp.edu.pl Centre of Competence for Aluminum Modern Technology and Integrating
of Aluminum Research Area Centra1 Institute of Non-Ferrous Metals zbigniews@imn.gliwic.pl Centre of Excellence for Advanced Chitin Materials and Structures CEChit Institute of Chemical Fibres iwch@mazurek.man.lodz.pl Nanometer-Scale Science and Advanced Materials NANOSAM Jagiellonian University ufwarcza@cyf-kr.edu.pl Centre of Competence in Safety of Pressure Equipment PRESAFE Warsaw University of Technology, Faculty of Science Materials and Engineering wku@rekt.pw.edu.pl Nanocrystalline Materials: Fabrication, Structure, Modelling, Properties and Applications NanoCentre Warsaw University of Technology, Faculty of Science Materials and Engineering wku@rekt.pw.edu.pl Centre of Excellence in Physics and Technology of Semiconductor Interfaces And Sensors CESIS Silesian University of Technology Rnauk.sekr@polsl.gliwice.pl Center of Excellence "Sol-Gel Materials And Nanotechnology" SGM&N Technical University of
Online since: April 2016
Authors: Qing Ju Liu, Yu Min Zhang, Zhong Qi Zhu, Jin Zhang
The structure, micro morphology, chemical bond and optical properties of the as-prepared graphene quantum dots were characterized.
Raman, FT-IR, XRD were used to identify the structure of the as prepared GQDs.
Lyding: ‘The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbons’.
Chemistry (Easton), 2012, 18, 12522-12528
The Journal of organic chemistry, 2004, 69, 5179-5186
Raman, FT-IR, XRD were used to identify the structure of the as prepared GQDs.
Lyding: ‘The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbons’.
Chemistry (Easton), 2012, 18, 12522-12528
The Journal of organic chemistry, 2004, 69, 5179-5186