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Online since: April 2016
Authors: Yan Fu, Zuo Qing Liang, Xiao Mei Wang, Chang Qing Ye, Sai Jiang Zhu
LC-MS: 430.3
Fig. 1 Molecular structures of sensitizer (PdTPP) and emitters (An, BBA and BTPA).
Journal of Materials Chemistry C. 3:616 (2015)
Journal of Materials Chemistry A.1:8521 (2013)
Chemistry - A European Journal. 17:9560 (2011)
Chemical Physics Chemistry. 14:3517 (2013).
Journal of Materials Chemistry C. 3:616 (2015)
Journal of Materials Chemistry A.1:8521 (2013)
Chemistry - A European Journal. 17:9560 (2011)
Chemical Physics Chemistry. 14:3517 (2013).
Online since: December 2011
Authors: Dae Hee Yun, Han Sol Yoo, Yong Sung Park, Je Wan Woo
Phenothiazine has a tricyclic structure with rich electrons.
This can be interpreted that as photoreactions develop, the movement of electrons become more active than the basic structure.
Massie, Department of Chemistry, Fisk University, Nashville, Tennessee, (1954)
Shim, Journal of Polymer Science: Part A: Polymer Chemistry, 45, 1236 (2007)
Lin, Journal of Polymer Science: Part A: Polymer Chemistry, 48, 4823 (2010)
This can be interpreted that as photoreactions develop, the movement of electrons become more active than the basic structure.
Massie, Department of Chemistry, Fisk University, Nashville, Tennessee, (1954)
Shim, Journal of Polymer Science: Part A: Polymer Chemistry, 45, 1236 (2007)
Lin, Journal of Polymer Science: Part A: Polymer Chemistry, 48, 4823 (2010)
Online since: October 2013
Authors: Tao Zhang, Yu Ming Zhou, Yong Juan Wang, Jin Juan Xue, Xiao Hai Bu, Zhen Jie Chen
Biomimetic fabrication and infrared properties of hierarchically structured ZnO derived from cotton fibers
Tao Zhang, Yuming Zhou*, Yongjuan Wang, Xiaohai Bu, Jinjuan Xue,
Zhenjie Chen
School of Chemistry and Chemical Engineering, Southeast University, Jiangsu Optoelectronic Functional Materials and Engineering Laboratory, Nanjing 211189, China
fchem@163.com
Keywords: Biomorphic ZnO; Hierarchical structure; Infrared emissivity; Biotemplate; BSA
Abstract.
It is meaningful to fabricate new structure materials based on the replicated biological structures.
More detailed structure of ZnO nanorod can be seen in Fig. 1D.
It may be attributed to the special surface structure of ZnO-N.
Chang, Fabrication of ZnO Nanorods and Nanotubes in Aqueous Solutions, Chemistry of Materials, 17 (2005) 1001-1006
It is meaningful to fabricate new structure materials based on the replicated biological structures.
More detailed structure of ZnO nanorod can be seen in Fig. 1D.
It may be attributed to the special surface structure of ZnO-N.
Chang, Fabrication of ZnO Nanorods and Nanotubes in Aqueous Solutions, Chemistry of Materials, 17 (2005) 1001-1006
Online since: December 2010
Authors: Qiang Li, Dan Yu Jiang, Lin Zhang, Zhan Lian Liu
Structure and Luminescence Characteristics of Yttrium Hydroxide Nanosheets Doped with Eu3+
Lin Zhang1,a, Danyu Jiang2, Zhanlian Liu3 and Qiang Li1,b
1 Department of Chemistry, East China Normal University, Shanghai 200062, China
2 Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
3 Donghua University, Shanghai 200050, China
a 715zhanglin@163.com; b qli@chem.ecnu.edu.cn
Keywords: nanosheets; Yttrium hydroxide; Luminescence
Abstract: Eu3+ doped yttrium hydroxide nanosheets were successfully synthesized from layer compound of Y2(OH)5NO3 doped by Eu3+.
The structure of layer compound and nanosheets were determined by XRD, TEM.
The luminescence properties of yttrium hydroxide nanosheets doped with Eu3+ were examined; the relationship between structure and spectra was discussed.
In the past few years, with the help of physics and chemistry, electrostatic attraction existing between the layers of inorganic layered compounds could be broken.
The luminescence properties of as-obtained nanosheets were studied and supply some structure information of nanosheets.
The structure of layer compound and nanosheets were determined by XRD, TEM.
The luminescence properties of yttrium hydroxide nanosheets doped with Eu3+ were examined; the relationship between structure and spectra was discussed.
In the past few years, with the help of physics and chemistry, electrostatic attraction existing between the layers of inorganic layered compounds could be broken.
The luminescence properties of as-obtained nanosheets were studied and supply some structure information of nanosheets.
Online since: June 2012
Authors: Xiao Lan Hu, Xiao Su Yi, Gang Liu, Wen Ming Zhao, Peng Zhang
This kind of structure can be regarded as a macroscopic bicontinuous structure in which PANF and resin were two different continuous phases, respectively.
Such kind of structure demonstrated obvious toughness effect.
Advances in Chemistry, 1993: 405-425
Advances in Chemistry, 1993: 405-425
Advances in Chemistry, 1993: 293-304
Such kind of structure demonstrated obvious toughness effect.
Advances in Chemistry, 1993: 405-425
Advances in Chemistry, 1993: 405-425
Advances in Chemistry, 1993: 293-304
Online since: July 2015
Authors: Panit Kamma, Chakrit Suvanjumrat
The mixture fraction approach and infinitely-fast chemistry assumption was combined with this LES turbulence model.
The infinitely-fast chemistry assumption is used to assume for un-mixing between fuel and oxidizer.
Initial temperature inside a cell or grid structure was defined at 285 K for all simulated cases.
Grid structure of the CFD domain in: (a) three-dimension and (b) section view.
These codes can analyze flame structure of burners.
The infinitely-fast chemistry assumption is used to assume for un-mixing between fuel and oxidizer.
Initial temperature inside a cell or grid structure was defined at 285 K for all simulated cases.
Grid structure of the CFD domain in: (a) three-dimension and (b) section view.
These codes can analyze flame structure of burners.
Online since: February 2013
Authors: Mazen Al-Ghoul, Janane Rahbani
Sasaki: Inorganic chemistry Vol. 45 (2006), p. 3964-3969
Fujita: Chemistry of Materials Vol. 14 (2002), p. 583-589
O'Hare: Chemistry of Materials Vol. 10 (1998), p. 351-355
Parkinson: Chemistry of Materials Vol. 14 (2001), p. 232-234
O'Hare: Chemistry of Materials Vol. 17 (2005), p. 2632-2640
Fujita: Chemistry of Materials Vol. 14 (2002), p. 583-589
O'Hare: Chemistry of Materials Vol. 10 (1998), p. 351-355
Parkinson: Chemistry of Materials Vol. 14 (2001), p. 232-234
O'Hare: Chemistry of Materials Vol. 17 (2005), p. 2632-2640
Online since: May 2014
Authors: Jian Rong Chen, Ling Ling Luo, Na Song, Dan Chen
Chemistry of Materials. 2011, 23 (5): 1079-1081
Inorganic chemistry. 2011, 50 (5): 1628-1632
Materials Chemistry. 2010, 21 (13): 5069-5075
Materials Chemistry. 2010, (21): 3346-3349
Journal of Materials Chemistry. 2010, 20 (14): 2801–2806
Inorganic chemistry. 2011, 50 (5): 1628-1632
Materials Chemistry. 2010, 21 (13): 5069-5075
Materials Chemistry. 2010, (21): 3346-3349
Journal of Materials Chemistry. 2010, 20 (14): 2801–2806
Online since: November 2013
Authors: Hossein Zolgharnein, Abdolghader Hamidifalahi, Mahnaz Enayati-Jazi, Entesar Hamid, Saham Sharifat
This results show that the nanocomposite are crystallized in the HAp/TiO2 structure at 4000C and calcinated HAp/TiO2 is better to photodegradation of MO .
The color of MO changed from yellow to orange and then to red in acidic conditions because of the contribution of the hydrazone structure to the resonance [15].
Boccaccini, Fabrication and characterization of porous bioceramic composites based on hydroxyapatite and titania, Materials Chemistry and Physics 103 (2007) 95–100
Sastry, An in situ approach to prepare nanorods of titania–hydroxyapatite (TiO2–HAp) nanocomposite by microwave hydrothermal technique, Materials Chemistry and Physics 107 (2008) 492–498
Journal of Photochemistry and biology A: Chemistry, 108 (1997) 1–35
The color of MO changed from yellow to orange and then to red in acidic conditions because of the contribution of the hydrazone structure to the resonance [15].
Boccaccini, Fabrication and characterization of porous bioceramic composites based on hydroxyapatite and titania, Materials Chemistry and Physics 103 (2007) 95–100
Sastry, An in situ approach to prepare nanorods of titania–hydroxyapatite (TiO2–HAp) nanocomposite by microwave hydrothermal technique, Materials Chemistry and Physics 107 (2008) 492–498
Journal of Photochemistry and biology A: Chemistry, 108 (1997) 1–35
Online since: March 2023
Authors: R.G. Rakhmatullina, G.U. Yarmuhametova, A.R. Maskova
It is shown that nanocrystalline structures can be present in the structure of 1,2-SPB polymer films.
Fakhlman, Chemistry of new materials and nanotechnology, Tutorial.
Tager, Physico-chemistry of polymers, Chemistry, 1978
[7] Workshop on chemistry and physics of polymers: textbook. ed.
Kurenkov, Ed. 3rd, M.: Chemistry, 1995, p. 256
Fakhlman, Chemistry of new materials and nanotechnology, Tutorial.
Tager, Physico-chemistry of polymers, Chemistry, 1978
[7] Workshop on chemistry and physics of polymers: textbook. ed.
Kurenkov, Ed. 3rd, M.: Chemistry, 1995, p. 256