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From Fig.1 (a), the pores structure is obvious and orderly.
This is why it is difficult to see pores structure on the surface of membrane prepared with phosphoric acid in Fig.1 (b).
From Fig.1 (c), it can be easily observed that the pores structures were broken.
Expect Fig.4 (b), the pores hexagonal structure can't be found.
Each pore has a honeycomb structure, and the pore arrangement is greatly ordered.

A laboratory test, which was conducted in various gas compositions at 650°C at 0.1MPa, has demonstrated that the gas chemistry of both the ac and the Po2 affected the metal dusting as well as carburisation [9].
It has a double-layered structure: outer chamber was filled with Ar gas to prevent the explosion due to a gas leakage and inner one of 30 mm inside diameter was heated to react with a simulated gas mixture.
Gas chemistry.
The gas chemistries of the test conditions have been described in detail.

Characterization of a Thermo-Sensitive Injectable Hydrogel as an Iloprost Delivery System for Dental Use Chalida Nakalekha Limjeerajarus1,2,3, Narumol Kreua-Ongarjnukool4, Sonntana Seang5, Prasit Pavasant1,6,7 and Saowapa Thumsing Niyomthai8,a* 1Excellence Center in Regenerative Dentistry 2Genomics and Precision Dentistry Research Unit 3Department of Physiology, Faculty of Dentistry, Chulalongkorn University 4Department of Industrial Chemistry, Faculty of Applied Science, King Mongkut’s University of Technology North Bangkok 5Graduate Program in Oral Biology 6Mineralized Tissue Research Unit 7Department of Anatomy, Faculty of Dentistry, Chulalongkorn University, Bangkok, Thailand 8Department of Industrial Chemistry, Faculty of Applied Science King Mongkut’s University of Technology North Bangkok 1518, Pracharat I Road, Wongsawang, Bangsue, Bangkok 10800, Thailand asaowapa.t@sci.kmutnb.ac.th Keywords: controlled release, dental pulp, iloprost, thermo-sensitive hydrogel
In contrast, the higher concentrations have a tighter crosslink structure that increases the time required for water to penetrate the pluronic and dissolve it.
Acknowledgments The authors acknowledge the support received from the Department of Industrial Chemistry, Faculty of Applied Science, KMUTNB (a), (b) the Faculty of Dentistry at CU, (c) Grant for International Research Integration: Research Pyramid, Ratchadaphiseksomphot (GCURP_58_02_63_01) and (e) The Excellent center in Regenerative Dentistry and the Genomics and Precision Dentistry Research Unit, Department of Physiology, Faculty of Dentistry, CU are supported by the Chulalongkorn Academic Advancement Into Its 2nd Century Project.

Remediation of decabrominated diphenyl ether contaminated soil using white rot fungi Junqin Wu1, a, Yuechun Zhao1, b, Lu Liu1, c, Biao Fan1, d, Minghua Li1, e 1 Department of Applied Chemistry, South China Agricultural University, Guangzhou 510642, China awu_junqin@163.com, byczhao@scau.edu.cn, cyummi@sina.cn, dfanbiao1212@163.com, eBKGR@163.com Keywords: White rot fungi, Decabrominated diphenyl ether (BDE-209), Biodegradation, Soil Abstract.
White rot fungi have the unique ability to decompose lignin, and they are also capable of degrading some compounds with similar structure.
Jiang, Progress In Chemistry, vol. 3, pp. 554-562, 2005.
Law, et al., Environmental Toxicology and Chemistry, vol. 25, pp. 2177-2186, Aug 2006

Fruehauf, Consider IMC tuning to improve controller performance, Chemistry Engineering Progress, 86(10) (1990) 33-41
Simmrock, Design of processes with reactive distillation line diagrams, Industrial and Engineering Chemistry Research, 36(8) (1997) 3032-3042
Alvarez, Two-point temperature control structure and algorithm design for binary distillation columns, Industrial and Engineering Chemistry Research, 44 (2005) 142-152

Synthesis and Application of Positively Charged and Magnetically Separable Magnetite/Silica-Ammonium as an Effective Platinum(IV) Adsorbent Ngatijo1,a*, Lenny Marlinda1,b, Restina Bemis1,c, Heriyanti1,d, Diah Riski Gusti1,e, Ahmad Fatwa Lazuardi1,f, Bayu Ishartono2,g and Rahmat Basuki2,3,h 1Department of Chemistry, Faculty of Science and Technology, Universitas Jambi, Jambi, Indonesia 2Bureau of School Curriculum Analysis, Design, and Interpretation, Master of Chemistry Alumny Forum (FAMK), Universitas Gadjah Mada, Yogyakarta, Indonesia 3Department of Chemistry, Faculty of Military Mathematics and Natural Sciences, Universitas Pertahanan RI, Bogor, Indonesia a*tijo52@yahoo.co.id, bmarlindalenny@gmail.com, cbemisrestina@gmail.com, dheriyanti0205@gmail.com, ediahgusti07@yahoo.co.id, fahmadfatwal@gmail.com, gbayu.ishartono@mail.ugm.ac.id, hrhmtbsq@gmail.com Keywords: Adsorption, Magnetite/Silica-Ammonium, Platinum(IV), adsorption, composites Abstract.
The 2θ indicated the typical crystal of Fe3O4 at 30.1° (220), 35.4° (311), and 57.0° (511) that was highly matched with the spinel structures standard XRD pattern for Fe3O4 (JCPDS 19-0629) [25].

Study on the Bactriostasis of Nano-silver against Four Strains of Bacteria Lu Qiu1, 2 a*, Hai-han Yang1b, Jia-yan Lv1c, Shu-guo Fan1,2d, Mei-hua Xie1e, Zhen-ji Wang1f, Jian-hui Gao3g 1Department of Chemistry and Life Science, Chuxiong Normal University, Chuxiong675000, PR China 2Key Subject Construction of Yunnan Province and Chuxiong Normal University, Chuxiong 675000, PR China 3library,Chuxiong Normal University, Chuxiong675000, PR China aemail:qiulu@cxtc.edu.cn, bemail:haiyanyang@cxtc.edu.cn, cemail: ljy522945@163.com, demail:fansg@cxtc.edu.cn, e email:shell_ya@cxtc.edu.cn, femail: wangzj@cxtc.edu.cn * Corresponding author Keywords: Nano-silver, Bacteriostasis, Bacteriostat, ESCHERICHIA coli(E. coli), Staphylococcus aureus(S. aureus), Bacillussubtilis (B. subtilis ), Bacillus thuringiensis(B. thuringiensis).
They are E. coli, S. aureus, B. subtilis, B. thuringiensis, which were provided by the Microbiological Lab of the Chemistry and Biology Department of Chuxiong Normal Universit.
Antibacterial principle of nano silver is realized through the cell membrane permeability damage.A large number of silver ions go into the cell and result in further damage to protein and cell structure, and a large number of cytoplasm extravasate overflew from cell to lead to cell disintegrating[30].
Bioinorganic chemistry and applications, 2014

Effects of Composition and Layer Number on the Mechanical Properties of Multilayered Si-DLC / DLC Coatings Atsuki Okano1,a* and Akio Nishimoto2,b 1Graduate School of Science and Engineering, Kansai University, 3-3-35 Yamate-cho, Suita, Osaka 564-8680, Japan 2Department of Chemistry and Materials Engineering, Kansai University, 3-3-35 Yamate-cho, Suita, Osaka 564-8680, Japan a*k255579@kansai-u.ac.jp, bakionisi@kansai-u.ac.jp Keywords: DLC Coating, Plasma CVD, Stainless Steel, Multilayer Structure, Surface Engineering.
Figure 1 shows a schematic illustration of the Si-DLC/DLC multilayer structure.
(a) Schematics of 2-, 4-, and 6-layer DLC structures.
Fig. 2(g)–(i) reveal three Si peaks, confirming a 6-layer structure.
Fewer interfaces in 2-layer structures likely limited stress dissipation.

Energy dispersive spectroscopy (EDS) spectra proved that Cl- anions replaced CO32- anions in the LDH structure.
If it is used in a special place, such as bridge deck, its steel structure would be destroyed due to the corrosion [[] X.M.
Pauling: The nature of the chemical bond and the structure of molecules and crystals: an introduction to modern structural chemistry (Cornell University Press, United States 1960). ].
When water molecules entered the layered Mg-Al Cl- LDH structures, a stronger ionization effect was appeared than for Mg-Al CO32- LDH.
Fig. 3 (a) Analyzing the proportion of snow area, (b) Snow-melting rates of Marshall specimens Conclusions SEM and EDS confirmed that Cl- anions replaced CO32- anions in the Mg-Al LDH structure.

Its hierarchical structure is shown in Fig. 1.
Schematic view of the highly hierarchical dentin structure.
Such treatment induces a complete dehydratation and damages the collagen structure.
Kuhs, in: Physics and Chemistry of Ice, edited by W.
Kuhs Royal Society of Chemistry, p. 201, Cambridge (2007) [32] O.