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The structure was obtained from the Research Collaboratory for Structural Bioinformatics Protein Data Bank (RRSCB-PDB) database through the web page http://www.rcsb.org/pdb/home/home.do.
The 3D Structure of Dengue Protein NS5 Methyltransferase with the attached SAH with PDB ID: 4V0Q (a), SAM with PDB ID: 3P97 (b), and SFG with PDB ID: 4R8S (c) Pharmacological test.
In this phase, all three 3D protein structures were aligned, and their similarity was checked.
Strauss, Structure of dengue virus: implications for flavivirus organization, maturation, and fusion, Cell. 108 (2002) 717-725
Zoete, SwissADME: a free web tool to evaluate pharmacokinetics, drug-likeness and medicinal chemistry friendliness of small molecules, Sci.

FTIR spectra showing complexation sites in CMC structure For comparison purpose, CMC film without LiTFSI salt serves as reference in this study.
The addition of 30 wt.% LiTFSI induces changes in the structure and interactions within the CMC, leading to alterations in its crystallinity.
Journal of Energy Chemistry, 43, (2020) 58-70
Hybrid electrolytes with controlled network structures for lithium metal batteries.
The Journal of Physical Chemistry B, 120(44) (2016)11567-11573

Introduction Terbium aluminum garnet (Tb3Al5O12, TAG), with a cubic phase structure, has many important optical properties.
The existence of carbonate anions CO32ˉ in the molecular structure is evidenced by the appearances of absorption bands at ~1520, 1416, 1062, and 848 cm-1.
Fukuda, (Tb,Yb)3Al5O12 garnet: crystal-chemistry and fiber growth by micro-pulling-down technique, Materials Science and Engineering B, 75 (2000) 53–60 [6] Yu.
Su, Comparative study on the synthesis, photoluminescence and application in InGaN-based light-emitting diodes of TAG:Ce3+ phosphors, Journal of Solid State Chemistry, 180, (2007)1165–1170 [13] K.
Sakka, Gadolinium Aluminate Garnet (Gd3Al5O12): Crystal Structure Stabilization via Lutetium Doping and Properties of the (Gd1-xLux)3Al5O12 Solid Solutions (x = 0–0.5), J.

In the plasma jet, the temperature is different at coking top-bottom and inner-outer, which will have some impact on the coking formation crystal structure.
The higher the temperature, coking reaction is more complete, the more ordered coke structure .
Above all can instruct the coke crystal structure gradually graphite, with the feed rate decreased.
It can be seen from Fig.7, as the feed rate increase, the coke loose structure is gradually moved outside to inward.
[2] Yongkang Lv, Yuanyu Tian, Kechang Xie, The effect of size to pyrolysis of acetylene in plasma[J], fuel chemistry, 2002,30 (2) :183-187(in Chinese)

For example in SWZNTs with (20, 20) group, its amount for the armchair structure is five times more than that obtained for the zigzag structure (35,0).
Li, Structure and Bioactivity of Zirconia nanotube Arrays Fabricated by Anodization. 
Seifert, Theoretical Study of the Mechanical Behavior of Individual TiS2 and MoS2 Nanotubes, Journal of Physical Chemistry C, vol. 116, no. 21 (2012) 11714-11721
The Journal of Physical Chemistry C, 26 (2010) 11358-11363
Evarestov, Ab initio structure modeling of ZrO2 Nanosheets and Single-Wall Nanotubes. 

Introduction It is well known that many polymers possess a heterogeneous micro-structure and nano-structure, which is induced by the processing conditions.
Skin-core structure of the injection-moulded PP [2].
Radiation cross-linking creates changes in the Polypropylene structure by creating 3D net.
Parra, Radiation Physics and Chemistry, 97 (2014), 233–238
Kim, Journal of Industrial and Engineering Chemistry 19 (2013), 1879–1883

Effect of Electrodeposition Mechanism and α-Si3N4/ZrBr2 Doped Composite Particle on the Physicochemical and Structural Properties of Processed NiPZn Coatings on Mild Steel for Advance Application Ojo Sunday Isaac Fayomi1a, Sode Adedamola Ayodeji2b*, Benedict Uche Anyanwu3c, Mojisola Olubunmi Nkiko4d and Khadijah Tolulope Dauda5e, 1Department of Mechanical and Biomedical Engineering, Bells University of Technology, Ota, Nigeria 2Department of Mechanical Engineering, Covenant University, Ota, Nigeria 3Department of Mechanical Engineering Federal University of Agriculture, Abeokuta, Nigeria 4Department of Physical and Chemical Sciences, Elizade University, Ilara-Mokin, Nigeria 5Department of Industrial Chemistry, Bells University of Technology, Ota, Nigeria Corresponding author: osfayomi@bellsuniversity.edu.nga, aaasod19@gmail.comb, benedictanyanwu@gmail.comc, mojosola.nkiko@elizadeuniversity.edu.ngd ktdauda@bellsuniversity.edu.nge Keywords: Nanomaterials, Structure, Corrosion
ZrBr2 is characterized by its hexagonal refractory structure with a tendency to withstand high temperatures.
The morphology in Fig 2a revealed a typical crack free α-Si3N4 crystallized circular structure.
Fig. 2b shows a smaller grain necklace structure of Zr.
In addition, tightly packed grain with smaller nodular protrusions through adsorption chemistry was seen to actively participated firmly at the crystal buildup of Ni-P-Zn matrix of Ni-P-Zn-10Si3N4 Fig. 3: SEM result [a] Ni-P-Zn-5Si3N4 [b] Ni-P-Zn-10Si3N4 [c] Ni-P-Zn-5 ZrB2 [d] Ni-P-Zn-10ZrB2 at x500 Mag.

Facile Sol-gel Synthesis of Mesoporous TiO2 in Ionic Liquids Shu Guo a, Shengxu Lu b, Hui Ding c and Zaifeng Shi * d School of Chemistry and Chemical Engineering, Hainan Normal University, Haikou, 571158, China agslzgs@hotmail.com, blushengxu@hotmail.com, cdinghui@hotmail.com,dzaifengshi@126.com Keywords: Mesoporous; TiO2 particles; Ionic liquids Abstract.
The TEM micrographs as well as N2 adsorption–desorption measurements show that the prepared products exhibited wormlike pore structures.
The lacking of distinct crystalline structure can be confirmed by the selected area electron diffraction (SAED) pattern of the sample.
It indicates that the nanoporous structures are achieved.
The prepared sample possessed anatase phases and showed wormhole-like mesoporous structures.

In geopolymer chemistry, every Al atom required one Na atom to reach equilibrium [8].
It can be seen that the amorphous lamellar structure of straw-geopolymer is consistent with pure geopolymer.
No porous structures were observed.
The lamellar structure of straw-geopolymer was still clearly visible.
The lamellar structure of straw-geopolymer was consistent with pure geopolymer.

Core-shell Magnesium Hydroxide/Polymermer Nanoparticles Prepared by in-situ Emulsion Copolymerization Lili Xu1, a, Shengpeng Liu1, b, Xuan Li2, c 1 Key Laboratory for Green Chemical Process of Ministry of Education, Hubei Key Laboratory of Novel Reactor and Green Chemical Technology, Wuhan 430073, China 2School of Chemistry,Huazhong Normal University, Wuhan, 430079, China axulily00@163.com, bliuabss@163.com, clixuanx@163.com Keywords: Magnesium hydroxide; Core-shell; in-situ Emulsion copolymerization Abstract.
The morphology, thermal stability and chemical structure of the final products were investigated in detail with transmission electron microscopy (TEM), thermogravimetric analysis (TGA) and Fourier-transform infrared spectra (FTIR).
The TEM results showed that the core-shell structure of MH/Polymer nanoparticles with MH-cores and Polymer-shell was formed.
Later, the chemical structure, morphology and thermal properties of MH/polymer hybrid nanoparticles were examined.
Fourier transform infrared (FTIR) spectroscopy was applied to characterize changes in the chemical structure of vinylated MH and MH/Polymer hybrid particles by VERTEX 70 spectrometer (Bruker, Germany).