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"count": 732,
"next": "https://api.research.service.sci.tu.ac.th/api/normalPublication/?format=api&page=5",
"previous": "https://api.research.service.sci.tu.ac.th/api/normalPublication/?format=api&page=3",
"results": [
{
"id": 28,
"title": "Crystal structure of 3-[2-(1,3-thiazol-2-yl)diazen-1-yl]pyridine-2,6-diamine monohydrate",
"abstract": "In the title hydrated azo compound, C8 H8 N6 S·H2 O, the two aromatic groups are close to coplanar with the dihedral angle between the mean planes of the thiazole and pyridine rings being 2.9(2)°. The organic molecule adopts an E configuration with respect to the double bond of the azo bridge. In the crystal, molecules are linked by (amine)N - H...N(pyridine), (amine)N - H...O(water) and (water)O - H...N(thiazole) hydrogen bonds along with π-π interactions involving pairs of thiazole rings and pairs of pyridine rings. The plane-to-plane distance between two parallel molecules is 3.7856(4)Å and corresponds to the length of the a axis. In this way, a layer structure parallel to (010) is formed. The layers are linked by weak C - H...S hydrogen bonds, eventually resulting in a three-dimensional network. © 2018 Chotima et al.",
"published_year": 2018,
"file": null,
"authors": [
"Boonseng B.",
"Chainok K.",
"Songsasen A.",
"Piyasaengthong A.",
"Chotima R."
],
"keywords": [
"crystal structure",
"π-π stacking",
"azo dyes",
"hydrogen bonding"
],
"references": [
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"Hens, A., Mondal, P., Rajak, K.K., (2015) Polyhedron, 85, pp. 255-266",
"Piyasaengthong, A., Boonyalai, N., Suramitr, S., Songsasen, A., (2015) Inorg. Chem. Commun, 59, pp. 88-90",
"Sheldrick, G.M., (2015) Acta Cryst, A71, pp. 3-8",
"Groom, C.R., Bruno, I.J., Lightfoot, M.P., Ward, S.C., (2016) Acta Cryst, B72, pp. 171-179",
"Kaur, B., Kaur, N., Kumar, S., (2018) Coord. Chem. Rev, 358, pp. 13-69",
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]
},
{
"id": 29,
"title": "Enhanced electrochemical performances with a copper/xylose-based carbon composite electrode",
"abstract": "Copper/carbon (Cu/C) composites were prepared through the simple and environmentally benign hydrothermal carbonization of xylose in the presence of Cu2+ ions. The morphology, specific surface area, phase structure and chemical composition were investigated. Using a three-electrode system in 0.1 M H2SO4 aqueous electrolyte, the Cu/C composite (10 wt% Cu) heat-treated at 600 °C gave the highest specific capacitance (316.2 and 350.1 F g−1 at 0.5 A g−1 and 20 mV s-1, respectively). The addition of Cu was the major factor in improving the electrochemical performance, enhancing the specific capacitance more than 30 times that of the C without Cu. Therefore, the Cu/C composite presented promising results in improving biomass-based C electrodes for supercapacitors. © 2017 Elsevier B.V.",
"published_year": 2018,
"file": null,
"authors": [
"Zhang H.",
"Wei L.",
"Kongparakul S.",
"Nueangnoraj K.",
"Reubroycharoen P.",
"Guan G.",
"Samart C.",
"Sirisomboonchai S."
],
"keywords": [
"cu/carbon composite",
"supercapacitor",
"electrode",
"xylose.",
"hydrothermal carbonization"
],
"references": [
"Chen, W., Shi, J., Zhu, T., Wang, Q., Qiao, J., Zhang, J., Preparation of nitrogen and xulfur dual-doped mesoporous carbon for supercapacitor electrodes with long cycle stability (2015) Electrochim. Acta, 177, pp. 327-334",
"Ramli, N.I.T., Rashid, S.A., Mamat, M.S., Sulaiman, Y., Zobir, S.A., Krishnan, S., Incorporation of zinc oxide into carbon nanotube/graphite nanofiber as high performance supercapacitor electrode (2017) Electrochim. Acta, 228, pp. 259-267",
"Wang, L., Gao, Z., Chang, J., Liu, X., Wu, D., Xu, F., Guo, Y., Jiang, K., Nitrogen-doped porous carbons as electrode materials for high-performance supercapacitor and dye-sensitized solar cell (2015) ACS Appl. Mater. Inter., 7, pp. 20234-20244",
"Chaitra, K., Vinny, R.T., Sivaraman, P., Reddy, N., Hu, C., Venkatesh, K., Vivek, C.S., Kathyayini, N., KOH activated carbon derived from biomass-banana fibers as an efficient negative electrode in high performance asymmetric supercapacitor (2017) J. Energy Chem., 26, pp. 56-62",
"Arbabzadeh, M., Johnson, J.X., Keoleian, G.A., Parameters driving environmental performance of energy storage systems across grid applications (2017) J. Energy Storage, 12, pp. 11-28",
"Rohit, A.K., Devi, K.P., Rangnekar, S., An overview of energy storage and its importance in Indian renewable energy sector (2017) J. Energy Storage, 13, pp. 10-23",
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"Momodu, D., Madito, M., Barzegar, F., Bello, A., Khaleed, A., Olaniyan, O., Dangbegnon, J., Manyala, N., Activated carbon derived from tree bark biomass with promising material properties for supercapacitors (2017) J. Solid State Electrochem., 21, pp. 859-872",
"Chen, K., Huang, X., Wan, C., Liu, H., Heteroatom–doped hollow carbon microspheres based on amphiphilic supramolecular vesicles and highly crosslinked polyphosphazene for high performance supercapacitor electrode materials (2016) Electrochim. Acta, 222, pp. 543-550",
"Khanehzaei, H., Ahmad, M.B., Shameli, K., Ajdari, Z., Synthesis and characterization of Cu@Cu2O core shell nanoparticles prepared in seaweed kappaphycus alvarezii media (2014) Int. J. Electrochem. Sci. 9, pp. 8189-8198",
"Zhou, J., Chen, J., Han, S., Zhao, H., Bai, J., Yang, Z., Mu, X., Xie, E., Constructing optimized three-dimensional electrochemical interface in carbon nanofiber/carbon nanotube hierarchical composites for high-energy-density supercapacitors (2017) Carbon, 111, pp. 502-512",
"Pike, J., Chan, S.W., Zhang, F., Wang, X., Hanson, J., Formation of stable Cu2O from reduction of CuO nanoparticles (2006) Appl. Catal. A, 303, pp. 273-277",
"Xu, P., Liu, J., Liu, T., Ye, K., Cheng, K., Yin, J., Cao, D., Li, Q., Preparation of binder-free CuO/Cu2O/Cu composites: a novel electrode material for supercapacitor applications (2016) RSC Adv., 6, pp. 28270-28278",
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"Wen, Z.B., Yu, F., You, T., Zhu, L., Zhang, L., Wu, Y.P., A core–shell structured nanocomposite of NiO with carbon nanotubes as positive electrode material of high capacitance for supercapacitors (2016) Mater. Res. Bull., 74, pp. 241-247",
"Lv, J., Yang, X., Zhou, H., Kang, L., Lei, Z., Liu, Z.-H., MnO2-wrapped hollow graphitized carbon nanosphere electrode for supercapacitor (2016) Mater. Res. Bull., 73, pp. 429-436",
"Cai, J., Niu, H., Wang, H., Shao, H., Fang, J., He, J., Xiong, H., Lin, T., High-performance supercapacitor electrode from cellulose-derived inter-bonded carbon nanofibers (2016) J. Power Sources, 324, pp. 302-308",
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"Gopalsamy, K., Balamurugan, J., Thanh, T.D., Kim, N.H., Lee, J.H., Fabrication of nitrogen and sulfur co-doped graphene nanoribbons with porous architecture for high-performance supercapacitors (2017) Chem. Eng. J., 312, pp. 180-190",
"Chen, T., Dai, L., Carbon nanomaterials for high performance supercapacitors (2013) Mater. Today, 16, pp. 272-280",
"Han, F., Li, H., Yang, J., Cai, X., Fu, L., One-pot synthesis of cuprous oxide-reduced graphene oxide nanocomposite with enhanced photocatalytic and electrocatalytic performance (2016) Phys. E: Low.-Dimensional Sys. Nanostructure, 77, pp. 122-126",
"Bose, S., Kuila, T., Mishra, A.K., Rajasekar, R., Kim, N.H., Lee, J.H., Carbon-based nanostructured materials and their composites as supercapacitor electrodes (2012) J. Mater. Chem., 22, pp. 767-784",
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"Singh, A., Chandra, A., Graphite oxide/polypyrrole composite electrodes for achieving high energy density supercapacitors (2013) J. Appl. Electrochem., 43, pp. 773-782",
"Sun, K., Yu, S., Hu, Z., Li, Z., Lei, G., Xiao, Q., Ding, Y., Oxygen-containing hierarchically porous carbon materials derived from wild jujube pit for high-performance supercapacitor (2017) Electrochim. Acta, 231, pp. 417-428",
"Ma, G., Li, J., Sun, K., Peng, H., Feng, E., Lei, Z., Tea-leaves based nitrogen-doped porous carbons for high-performance supercapacitors electrode (2017) J. Solid State Electrochem., 21, pp. 525-535",
"Wang, D., Liu, S., Fang, G., Geng, G., Ma, J., From trash to treasure: direct transformation of onion husks into three-dimensional interconnected porous carbon frameworks for high-performance supercapacitors in organic electrolyte (2016) Electrochim. Acta, 216, pp. 405-411",
"Malik, R., Zhang, L., McConnell, C., Schott, M., Hsieh, Y.-Y., Noga, R., Alvarez, N.T., Shanov, V., Three-dimensional, free-standing polyaniline/carbon nanotube composite-based electrode for high-performance supercapacitors (2017) Carbon, 116, pp. 579-590",
"Zhang, Y., Zhang, Y., Huang, J., Du, D., Xing, W., Yan, Z., Enhanced capacitive performance of N doped activated carbon from petroleum coke by combining ammoxidation with KOH activation (2016) Nanoscale Res. Lett., 11, p. 245",
"Aneke, M., Wang, M., Energy storage technologies and real life applications – A state of the art review (2016) Appl. Energy, 179, pp. 350-377",
"Gao, Y., Graphene and polymer composites for supercapacitor applications: a review (2017) Nanoscale Res. Lett., 12, p. 387",
"Yu, M., Han, Y., Li, J., Wang, L., CO2-activated porous carbon derived from cattail biomass for removal of malachite green dye and application as supercapacitors (2017) Chem. Eng. J., 317, pp. 493-502",
"Cao, B., Liu, H., Xu, B., Lei, Y., Chen, X., Song, H., Mesoporous soft carbon as an anode material for sodium ion batteries with superior rate and cycling performance (2016) J. Mater. Chem. A, 4, pp. 6472-6478",
"Lam, E., Chong, J.H., Majid, E., Liu, Y., Hrapovic, S., Leung, A.C.W., Luong, J.H.T., Carbocatalytic dehydration of xylose to furfural in water (2012) Carbon, 3, pp. 1033-1043",
"Brun, N., García-González, C.A., Smirnova, I., Titirici, M.M., Hydrothermal synthesis of highly porous carbon monoliths from carbohydrates and phloroglucinol (2013) RSC Adv., 3, pp. 17088-17096"
]
},
{
"id": 30,
"title": "Preparation, characterization and in vitro evaluation of calothrixin B liposomes",
"abstract": "Calothrixin B, a marine-derived compound, displays a broad spectrum of biological properties including anticancer effects. Calothrixin B has low water solubility, meaning that its therapeutic application is limited. In the present study, we explored the delivery of calothrixin B in the form of liposomal nanoparticles for its anticancer activity. Liposomes were prepared with cholesterol, and either DOPC or both DOPC and DOPE. Calothrixin B liposomes exhibited small sizes, ranging from 108 to 117 nm, and negative surface charges. High encapsulation efficiencies of calothrixin B (>89%) were achieved in all formulations. Liposomes composed of DOPC, DOPE and cholesterol resulted in the release of 87% of calothrixin B within 48 h, while a slower release rate was observed for the liposome without DOPE, with 56% release of calothrixin B. The cytotoxicity of calothrixin B in DOPC, DOPE and cholesterol liposomes was more pronounced than that in liposomes without DOPE. In comparison with DMSO-calothrixin B, calothrixin B in DOPC, DOPE and cholesterol liposomes showed significantly increased toxicity against A549 and comparable activity against MCF-7. Confocal microscopy confirmed that DMSO-calothrixin B and calothrixin B liposomes could induce cell death by the same mechanism. Calothrixin B liposomes demonstrate significant potential as delivery carriers for cancer therapy. © 2018 Elsevier B.V.",
"published_year": 2018,
"file": null,
"authors": [
"Thongyoo P.",
"Sinthuvanich C.",
"Leepasert T.",
"Boonrungsiman S.",
"Yingyuad P."
],
"keywords": [
"anticancer",
"encapsulation",
"calothrixin b",
"nanoparticles",
"liposomes"
],
"references": [
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]
},
{
"id": 31,
"title": "UV-C irradiation induced alterations in shoot proliferation and in vitro flowering in plantlets developed from encapsulated and non-encapsulated microshoots of Persian violet",
"abstract": "Ultraviolet-C (UV-C) radiation is well-known for its germicidal effect but its mutagenic potential in aiding new plant variety development has not been explored extensively. Persian violet (Exacum affine Balf.f. ex Regel) is a well-known decorative plant in Thailand. In this research, the effects of 0–4 h of UV-C irradiation on shoot proliferation and in vitro flowering of Persian violet plantlets derived from non-encapsulated and encapsulated microshoots were investigated. The number of multiple shoots was found to decrease as UV-C exposure time increased. Shoot-tip decapitation increased floral number in plantlets derived from both non-capsulated and encapsulated microshoots. The plantlets developed from non-encapsulated microshoots exposed to 4 h of UV-C irradiation exhibited tiny flower buds within 3 days from shoot-tip decapitation of the plantlets. However, the time for flower initiation was 35 days in control plantlets developed from non-encapsulated microshoots without irradiation. Another interesting novel finding is that 4 h of UV-C irradiation of the non-encapsulated microshoots resulted in the highest number of flowers (6.80 flowers) in the plantlets after 10 weeks compared to all the other treatments including the control that had only 3.20 flowers. This finding of Persian violet flowers with 7 petals has never been reported before. However, this UV-C treatment of the non-encapsulated microshoots diminished viability and in vitro germinability of pollen more than those in the treatment of encapsulated microshoots. Thus, UV-C irradiation of Persian violet microshoots affected multiple shoot proliferation and in vitro flowering. Encapsulation of the microshoots could counteract many of these effects of UV-C irradiation. © 2018 Elsevier B.V.",
"published_year": 2018,
"file": null,
"authors": [
"Bodhipadma K.",
"Kachonpadungkitti Y.",
"Phanomchai S.",
"Noichinda S.",
"Deelueak U.",
"Sukthavornthum W.",
"Leung D.W.M."
],
"keywords": [
"artificial seed",
"pollen",
"in vitro flower",
"exacum affine",
"in vitro mutagenesis"
],
"references": [
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]
},
{
"id": 32,
"title": "Biodiesel production by a renewable catalyst from calcined Turbo jourdani (Gastropoda: Turbinidae) shells",
"abstract": "Waste gastropod shells and animal bones are one of the richest sources of calcium carbonate and have been utilized, after suitable treatment, for various applications. The outer lip of waste Turbo jourdani (Turbinidae) shells, a marine snail, was utilized as a raw material for the production of a porous calcium oxide (CaO) catalyst for biodiesel (as fatty acid methyl esters; FAME) production via transesterification of palm oil and methanol. The outer lip of the shell was calcined at 900 °C for 5 h to fully convert the shell (aragonite form of calcium carbonate) into CaO with a porous structure, as characterized and confirmed by thermogravimetric, X-ray diffraction, Fourier transform infrared spectroscopy and scanning electron microscopy analyses. Three key reaction parameters: catalyst concentration, methanol: oil molar ratio and reaction time were optimized in terms of maximizing the oil to FAME conversion level. The best conditions were found to be a catalyst concentration of 10 wt%, a 3:1 methanol: oil molar ratio and a 7 h reaction time to give a >99% oil to FAME conversion level. Evaluation of the reusability of the catalyst revealed that its efficiency decreased with each sequential use but that a >90% conversion level was still obtained after eight sequential uses before it then declined markedly. © 2017 Elsevier Ltd",
"published_year": 2018,
"file": null,
"authors": [
"Malaithong M.",
"Luengnaruemitchai A.",
"Smith S.M.",
"Prokaew A.",
"Boonyuen S.",
"Cherdhirunkorn B."
],
"keywords": [
"waste shell",
"transesterification",
"biodiesel",
"solid catalyst"
],
"references": [
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]
},
{
"id": 33,
"title": "Feedback boundary of 4:1 rounded contraction slip flow for oldroyd-B fluid by finite element",
"abstract": "The driven force feedback in viscoelastic flow is a technique to enforce converged solution of Oldroyd-B fluid on the basis of semi-implicit Taylor-Galerkin finite element method for 4:1 contraction geometry with rounded corner meshes. Meanwhile in the numerical computation, the Phan-Thien slip rule is applied to complete the slip velocity along the die wall. After application of the slip condition, the severe stress near die exit and the vortex size around contraction corner are clearly reduced. This simulation is modeled with the Navier-Stokes and Oldroyd-B equations in two-dimensional planar isothermal incompressible creeping flow. The non-linear differential models are discretised to system of linear equations with semi-implicit Taylor-Galerkin finite element method. In addition, the Streamline-Upwind/Petrov-Galerkin and velocity gradient recovery are accuracy and the stability schemes to stabilize an approximate solution. The optimal slip velocity is modified step by step by critical slip coefficient to set the slip condition at the wall and when the solutions of slip and no- slip cases are compared with analytic solution, the outcome of slip condition shows better conformity to real results. © School of Engineering, Taylor’s University.",
"published_year": 2018,
"file": null,
"authors": [
"Thongjub N."
],
"keywords": [
"slip effect",
"slip velocity",
"4:1 contraction flow",
"feedback",
"oldroyd-b fluid"
],
"references": [
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]
},
{
"id": 34,
"title": "Toward a generalized contractive condition in partial metric spaces with the existence results of fixed points and best proximity points",
"abstract": "The aim of this paper is to define the new type of mappings which is called a weak ψ-ϕ-contraction mapping. Fixed point theorems for such mappings in partial metric spaces are established. Moreover, we present an example and numerical result for the main result. By providing this example, we show that our main result is a real generalization of the fixed point results of several mathematicians in the literature. As an application, we apply our results to prove the existence theorems of best proximity points for the non-self mappings. © 2018, Springer International Publishing AG, part of Springer Nature.",
"published_year": 2018,
"file": null,
"authors": [
"Sintunavarat W.",
"Ninsri A."
],
"keywords": [
"best proximity points",
"partial metric spaces",
"weak ψ-ϕ-contraction mappings"
],
"references": [
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]
},
{
"id": 35,
"title": "Fixed Point Theorems for Multi-valued Mappings with a ϕ Function",
"abstract": "In this paper, we introduce a new family of mappings from R+4 to R+ and it depends on fixed function ψ : R+→ R+, where R+= [ 0 , ∞). We call it a Φ ψ family. Then we define a new contractive type condition for multi-valued mappings involving a function ϕ ∈ Φ ψ. We also establish some fixed point theorems using our new contractive condition. Our results generalize many existing fixed point theorems. © 2016, The National Academy of Sciences, India.",
"published_year": 2018,
"file": null,
"authors": [
"Sintunavarat W.",
"Kamran T.",
"Ali M.U."
],
"keywords": [
"φ ψ family",
"fixed points",
"coincidence points"
],
"references": [
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"Ali, M.U., Kamran, T., On (α*, ψ) -contractive multi-valued mappings (2013) Fixed Point Theory Appl, 2013, pp. 1-7",
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]
},
{
"id": 36,
"title": "Effects of using cyanobacteria and fertilizer on growth and yield of rice, Pathum Thani I: a pot experiment",
"abstract": "The effects of cyanobacteria and chemical fertilizer on growths and yields of rice (Oryza sativa L.) cv. Pathum Thani 1 were studied in pot trials. Nine treatments were set up without cyanobacteria and fertilizer (control), inoculated with cyanobacteria Nostoc carneum TUBT04 (T1), inoculated with Nostoc commune TUBT05 (T2), and inoculated with combination of N. carneum TUBT04 and N. commune TUBT05 (T3), full dose of recommended use of fertilizer (T4), half dose of recommended use of the fertilizer (T5), half dose of fertilizer combined with N. carneum TUBT04 (T6), half dose of fertilizer combined with N. commune TUBT05 (T7), and half dose of fertilizer combined with N. carneum TUBT04 plus N. commune TUBT05 (T8). Each treatment divides into five replications. Growth parameters including length and fresh and dry weights of shoot and root were measured in the seedlings. The number of spikes per plant and the amount and weight of rice grains per spike were measured after harvesting. The supplement with cyanobacteria promoted rice seedling growth and yield compared to the control treatment. Inoculation with cyanobacteria showed significant increase in root length (p = 0.41). In addition, the combined biofertilizer with a half of the recommended dose of chemical fertilizer significantly enhanced rice production including total number and weight of grain per spike and a total weight of 100 grains (p < 0.001). Therefore, using a half dose of chemical fertilizer with cyanobacteria is suggested to decrease rice production cost of farmers without any effects on rice quantity and quality. © 2017, Springer Science+Business Media Dordrecht.",
"published_year": 2018,
"file": null,
"authors": [
"Limbipichai S.",
"Amnuaysin N.",
"Charoensook M.",
"Boonkerd R.",
"Chittapun S."
],
"keywords": [
"biofertilizer",
"rice",
"growth",
"yield",
"cyanobacteria"
],
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},
{
"id": 37,
"title": "Development of a gallic acid-loaded chitosan and polyvinyl alcohol hydrogel composite: Release characteristics and antioxidant activity",
"abstract": "The physico-chemical properties of a chitosan and polyvinyl alcohol (CS/PVA)-based hydrogel composite were investigated. Tetraethyl orthosilicate (TEOS) was employed as a crosslinking agent. The results indicated that the chitosan-based composite presented a thermal resistance up to 200 °C. The structural properties, which were evaluated using FTIR and DSC, showed good miscibility between chitosan and polyvinyl alcohol. SEM presented a compact and homogeneous structure. The release profile of the chitosan-based hydrogel composite was investigated using gallic acid (GA). It showed high antioxidant activities, which were monitored using DPPH radical scavenging. Diffusion of water into the chitosan-based hydrogel was assumed to be pseudo-Fickian in PBS solution. The CS/PVA-based hydrogel composite exhibited good properties as a drug delivery system. © 2017 Elsevier B.V.",
"published_year": 2018,
"file": null,
"authors": [
"Ummartyotin S.",
"Chuysinuan P.",
"Thanyacharoen T.",
"Nooeaid P.",
"Techasakul S."
],
"keywords": [
"drug release",
"chitosan",
"polyvinyl alcohol",
"gallic acid"
],
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]
}
]
}