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Your search keyword '"Phyu Thin Wai"' showing total 9 results
Start Over Author "Phyu Thin Wai" Topic chemistry.chemical_compound
9 results on '"Phyu Thin Wai"'

1. High-dispersed MoO3 nanoparticles in 3D-dendritic mesoporous silica nanospheres: heterogeneous catalysts for the epoxidation of olefins

Author

Agus Haryono, Qian Gu, Phyu Thin Wai, Kai Zhang, Yirui Shen, and Pingping Jiang

Subjects
Materials science, Mechanical Engineering, Nanoparticle, Mesoporous silica, Molybdenum trioxide, Catalysis, chemistry.chemical_compound, Chemical engineering, chemistry, Mechanics of Materials, Cyclooctene, Specific surface area, General Materials Science, Selectivity, Mesoporous material
Abstract

Highly dispersed molybdenum trioxide were loaded in three-dimensional dendritic mesoporous silica nanospheres (MoO3@3D-DMSNs) by one-pot method. The mesoporous silica nanospheres with central radical channels were obtained through the interaction of bisurfactant and molybdenum source and the as-synthesized MoO3@3D-DMSNs were characterized by specific tests. As a result, the as-prepared MoO3@3D-DMSNs exhibited better catalytic performance for epoxidation of olefins. When the molar ratio value of Mo and Si is 5%, the specific surface area (SBET = 185.8 m2/g) and pore volume (Vp = 0.46 cm3/g) of MoO3@3D-DMSNs reach a maximum, and the catalytic activity is the best for the epoxidation of cyclooctene. The conversion could reach 84% with a selectivity above 98% after 6 h. The better catalytic performance can be maintained after five reaction-regeneration cycles. The dendritic mesoporous structure can be well preserved after recycling. Additionally, olefins with electron-absorbing group exhibit better catalytic activity with MoO3@3D-DMSNs-5 as catalyst. Hence, MoO3@3D-DMSNs catalysts with the center-radial oriented channel exhibit good activity and stability. The central radial channel can effectively disperse the active center MoO3 and play a key role in the transmission and accessibility of substrates, and it would have a good application prospect in the catalytic reactions.

Published
2021

3. Encapsulated ultrafine and highly dispersed molybdenum dioxide nanoparticles in hollow mesoporous silica spheres as an efficient epoxidation catalyst for alkenes

Author

Yuming Dong, Phyu Thin Wai, Pingbo Zhang, Pingping Jiang, and Yirui Shen

Subjects
Materials science, 010405 organic chemistry, Nanoparticle, chemistry.chemical_element, General Chemistry, Mesoporous silica, 010402 general chemistry, 01 natural sciences, Hydrothermal circulation, 0104 chemical sciences, Catalysis, lcsh:Chemistry, chemistry.chemical_compound, lcsh:QD1-999, Chemical engineering, chemistry, Molybdenum, Selectivity, Molybdenum dioxide, Reusability
Abstract

A facile post-synthetic strategy was developed to functionalize the preformed hollow mesoporous silica spheres by encapsulating the molybdenum dioxide (MoO2) nanoparticles inside the interior cavity. Hollow mesoporous silica spheres were prepared and employed as carriers, and the encapsulation of MoO2 nanoparticles was achieved through a one-pot hydrothermal protocol. After characterization, the encapsulated MoO2 nanoparticles were certified to be ultrafine and highly dispersed, which greatly promoted the catalytic activity. The as-prepared catalysts were utilized in epoxidation of alkenes and exhibited as a promising catalyst in this reaction. After reacting for 10 h, the optimal catalyst MoO2@SiO2-1 achieved a conversion above 95% and selectivity above 95%, respectively. Moreover, the catalysts also exhibited good reusability, conversion of 78% and selectivity of 89% (reaction time 4 h) were still obtained after recycling for 5 times. Meanwhile, the employed facial and efficient hydrothermal approach could be expanded to other molybdenum modified heterogeneous catalysts in various applications. Keywords: Post-synthesis, Ultrafine, Molybdenum dioxide, Alkene, Epoxidation

Published
2019

4. Synthesis of coralloid carbon nitride polymers and photocatalytic selective oxidation of benzyl alcohol

Author

Pingping Jiang, Yirui Shen, Qian Gu, Phyu Thin Wai, Kai Zhang, Yan Leng, and Agus Haryono

Subjects
Materials science, chemistry.chemical_element, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, chemistry.chemical_compound, Specific surface area, General Materials Science, Lamellar structure, Electrical and Electronic Engineering, Carbon nitride, chemistry.chemical_classification, Mechanical Engineering, General Chemistry, Polymer, 021001 nanoscience & nanotechnology, Nitrogen, 0104 chemical sciences, chemistry, Chemical engineering, Mechanics of Materials, Benzyl alcohol, Photocatalysis, 0210 nano-technology
Abstract

Polymeric carbon nitride (C3N4) is currently the most potential nonmetallic photocatalyst, but it suffers from low catalytic activity due to rapid electron–hole recombination behavior and low specific surface area. The morphology control of C3N4 is one of the effective methods used to achieve higher photocatalytic performance. Here, bulk, lamellar and coralloid C3N4 were synthesized using different chemical methods. The as-prepared coralloid C3N4 has a higher specific surface area (123.7 m2 · g−1) than bulk (5.4 m2 · g−1) and lamellar C3N4 (2.8 m2 · g−1), thus exhibiting a 3.15- and 2.59-fold higher photocatalytic efficiency for the selective oxidation of benzyl alcohol than bulk and lamellar C3N4, respectively. Optical characterizations of the photocatalysts suggest that coralloid C3N4 can effectively capture electrons and accelerate carrier separation, which is caused by the presence of more nitrogen vacancies. Furthermore, it is demonstrated that superoxide radicals (·O2 −) and holes (h+) play major roles in the photocatalytic selective oxidation of benzyl alcohol using C3N4 as a photocatalyst.

Published
2020

5. Synthesis and properties of epoxy soybean oil-based polyurethanes modified by 3,13-dimethyhydroxysilyl double-decker phenylsilsesquioxane

Author

Lipeng Zhang, Jian Xu, Zhiliang Cao, Phyu Thin Wai, Pingbo Zhang, Pingping Jiang, Agus Haryono, Yue Wen, and Daobin Li

Subjects
Materials science, food.ingredient, General Chemical Engineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Industrial and Manufacturing Engineering, Soybean oil, Contact angle, chemistry.chemical_compound, food, Polyol, Materials Chemistry, Thermal stability, Polyurethane, chemistry.chemical_classification, General Chemistry, Epoxy, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Chemical engineering, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Glass transition
Abstract

Nowadays, environmental problems such as petroleum resources exhaustion, pollution and global warming are in ceaseless aggravation. Consequently, vegetable oil becomes one of the most important resources due to its cheapness, easily availability and environmental regeneration. In this study, a series of sustainable polyurethanes based on epoxy soybean oil modified by different contents of 3,13-dimethyhydroxysilyl double-decker phenylsilsesquioxane [DDSQ(Me)OH] have been prepared. Polyol prepared with epoxy soybean oil has effectively replaced the petroleum-based polyol and the DDSQ(Me)OH performed as chain extender together with 1,4-butanediol (BDO). The structure of DDSQ(Me)OH was verified by 1H NMR and MALDI–TOF–MS. The structure and properties of sustainable polyurethanes were characterized by FTIR, DSC, TGA, SEM, tensile test and static contact angle. TGA demonstrated that hybrid polyurethanes were thermally stable due to the covalent incorporation of DDSQ(Me)OH in polymer main chain, the 5% weight loss temperatures (Td5) of hybrid polyurethane can be 21 °C higher than pure PU. DSC revealed the improved glass transition temperature (Tg) of polyurethanes, and the Tg can be 12.4 °C improved compared with pure polyurethane. SEM showed that the aggregation of DDSQ(Me)OH has dispersed homogeneously in the hybrid polyurethanes matrix. The results of the static contact angle revealed that with the increase of DDSQ(Me)OH content, the surface hydrophobicity has been enhanced significantly, and the static contact angle of water for hybrid polyurethanes can be up to about 110.2°.

Published
2018

6. A dual-templating strategy for synthesis of Bi2WO6 with oxygen vacancies for enhanced light-driven photocatalytic oxidation alcohol

Author

Yirui Shen, Pingbo Zhang, Kai Zhang, Qian Gu, Yan Leng, Phyu Thin Wai, and Pingping Jiang

Subjects
Band gap, Process Chemistry and Technology, Cationic polymerization, chemistry.chemical_element, Alcohol, Photochemistry, Oxygen, Catalysis, chemistry.chemical_compound, chemistry, Benzyl alcohol, Light driven, Photocatalysis, Physical and Theoretical Chemistry
Abstract

In this study, the flower-like Bi2WO6 with oxygen vacancies were synthesized by using the anionic and cationic dual surfactants strategy. The study results indicate that the synergistic effect of dual surfactants provides more oxygen vacancies for Bi2WO6, which leads to a narrower band gap, an expanded light response range, and an improved separation efficiency of photogenerated charges in Bi2WO6. In the experiment of photocatalytic selective oxidation benzyl alcohol, Bi2WO6 with dual surfactants shows excellent photocatalytic activity. Especially when the molar rate of CTAB to SDS is 2, the conversion of benzyl alcohol overs 90%, which is 1.74-fold than that of pure Bi2WO6. Meanwhile, Bi2WO6 with dual surfactants also exhibits better photocatalytic efficiency for other aromatic alcohols. Furthermore, the free radical capture experiments show that superoxide radical (•O2−) and hole (h+) play a major role in the photocatalytic selective oxidation of benzyl alcohol.

Published
2021

7. Lamellar porous mo-modified carbon nitride polymers photocatalytic epoxidation of olefins

Author

Phyu Thin Wai, Qian Gu, Agus Haryono, Pingping Jiang, Yirui Shen, and Kai Zhang

Subjects
Materials science, Scanning electron microscope, Process Chemistry and Technology, Nitride, Catalysis, Styrene, chemistry.chemical_compound, chemistry, Chemical engineering, Styrene oxide, Photocatalysis, Lamellar structure, Physical and Theoretical Chemistry, Melamine, Carbon nitride
Abstract

A lamellar porous Mo-modified carbon nitride polymers (CN-Mo) was successfully prepared by a simple bottom-up method, which involves molecule self-assembly by hydrogen bonding between uracil and melamine. Analysis Results of X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM) and X-ray photoelectron spectra (XPS) show that Mo element has been doped in the skeleton of carbon nitride. The optical characterization results of the as-prepared photocatalysts show that, CN-Mo has a suitable band structure that can promote the separation of carriers and expands the absorption of light. Compared with CN, CN-Mo has better photocatalytic activity for epoxidation of olefins. When the mass value (relative to melamine) of ammonium molybdate tetrahydrate is 2 %, the photocatalytic efficiency is the best for the epoxidation of styrene. And the conversion rate of styrene reaches 38.4 % and the selectivity of styrene oxide is up to 83.2 %. In addition, it can maintain the better photocatalytic performance for the epoxidation of styrene after five reaction-regeneration cycles. This finding provides an effective development direction for photocatalytic olefins epoxidation under mild conditions.

Published
2021

8. An efficient cold-resistant strategy: Synthesis and application of green cold-resistant bio-based plasticizer for poly(vinyl chloride)

Author

Huihang Zhao, Pingping Jiang, Zheming Zhang, Yirui Shen, Nie Zhixin, Liu Dekai, Pingbo Zhang, Minzhong Zhao, Haryono Agus, and Phyu Thin Wai

Subjects
Materials science, Polymers and Plastics, Organic Chemistry, Plasticizer, Strategy synthesis, General Physics and Astronomy, Bio based, 02 engineering and technology, Raw material, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Poly vinyl chloride, Oleic acid, chemistry.chemical_compound, chemistry, Chemical engineering, Adipate, Materials Chemistry, Degradation (geology), 0210 nano-technology
Abstract

Nowadays, the most commonly used cold-resistant plasticizer, bis(2-ethylhexyl)adipate (DOA), not only has the poor migration resistance so that it can only be used as auxiliary plasticizer, but also causes huge pollution to the environment, especially water. Here, using renewable and green oleic acid as raw material, we had synthesized a series of oleate plasticizers. By means of capability tests, we detected that the Ti (initial degradation temperature) of PVC films plasticized with oleate plasticizers was 40 °C higher than that of DOA/PVC and 20 °C higher than that of DOTP/PVC. More importantly, in addition to illustrious migration resistance, they could maintain remarkable flexibility in cold environments as well. The low-temperature efficiency value of these oleate plasticizers exceeded 70 °C, which was much higher than DOTP and DOA. These results demonstrated that they possessed the potential to replace toxic DOP and poorly stable DOA, which provided an effective and green approach to solve the harm of plastic products to human health and the threat to the environment. In addition, these plasticizers broadened the application of PVC in cold environments, which was a boon for the application of PVC industry in the cold-resistant field, and contributed to sustainability of the hackneyed and oft-maligned PVC industry.

Published
2021

9. Entrapment of peroxophosphotungstate in SBA-15 by silylation and its catalytic efficiency in the epoxidation of soybean oil

Author

Phyu Thin Wai, Pingbo Zhang, Pingping Jiang, Qian Gu, and Yirui Shen

Subjects
food.ingredient, Silylation, 010405 organic chemistry, Chemistry, Process Chemistry and Technology, 010402 general chemistry, 01 natural sciences, Catalysis, Soybean oil, 0104 chemical sciences, Solvent, Epoxidized soybean oil, chemistry.chemical_compound, Adsorption, food, Chemical engineering, Desorption, Mesoporous material
Abstract

The efficient catalysts were designed to allow the entry and release of reactants and products into the mesoporous SBA-15 in which the active sites, peroxophosphotungstate, were entrapped by silylation with three different silylating agents (C3, C5, and C8 arm). The as-prepared catalysts were characterized by elemental analysis, ICP analysis, TGA, XRD, N2 adsorption/desorption, SEM, TEM, and FT-IR spectra. Their catalytic performances were tested for the epoxidation of soybean oil using different parameters such as temperature, H2O2 to unsaturation molar ratio, catalyst loading and stirring speed. The resulting epoxidized soybean oil was analyzed qualitatively and quantitatively by FT-IR and 1HNMR. The results confirmed that the catalyst silylated with C8 arm is promising for the synthesis of epoxides of long-chain carbon and reusable at least three times without obvious decrease in activity. Moreover, use of H2O2 oxidant and free of solvent in the epoxidation reaction are the main advantages of these catalysts.

Published
2020

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