แสดงข้อมูลผลงานตีพิมพ์ อ้างอิงจากฐาน pubswatch.psu.ac.th
| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Tsupphayakorn-aek, P., Suwan, A., Chaisit, T., Tulyapitak, T., Phinyocheep, P., Pilard, JF., Saetung, N. and Saetung, A. (2023). A new UV-curable biodegradable waterborne polyurethane-acrylate based on natural rubber blended with cassava starch. JOURNAL OF APPLIED POLYMER SCIENCE, 140(17) Cited: 0 doi: https://doi.org/10.1002/app.53787 | ||
| 2 | Sani, NFM., Majid, NA., Rehman, A., Hayeemasae, N., Radhakrishnan, S., Kulkarni, MB. and Khimi, R. (2023). A review of the recent development in self-healing rubbers and their quantification methods. PROGRESS IN RUBBER PLASTICS AND RECYCLING TECHNOLOGY Cited: 2 doi: https://doi.org/10.1177/14777606231200952 | ||
| 3 | Masa, A., Jehsoh, N., Dueramae, S. and Hayeemasae, N. (2023). Boosting the Antibacterial Performance of Natural Rubber Latex Foam by Introducing Silver-Doped Zinc Oxide. POLYMERS, 15(4) Cited: 4 doi: https://doi.org/10.3390/polym15041040 | ||
| 4 | Nakason, C., Pichaiyut, S., Vennemann, N. and Kaesaman, A. (2023). D Influence of processing oil on properties of dynamically cured epoxidized natural rubber and thermoplastic polyurethane blends. POLYMER BULLETIN, 80(8), 8627-8650. Cited: 1 doi: https://doi.org/10.1007/s00289-022-04430-9 | ||
| 5 | Masa, A. and Hayeemasae, N. (2023). Dual modification of natural rubber/halloysite nanotubes composites by silane and maleated natural rubber. INTERNATIONAL JOURNAL OF POLYMER ANALYSIS AND CHARACTERIZATION, 28(8), 714-725. Cited: 0 doi: https://doi.org/10.1080/1023666X.2023.2278234 | ||
| 6 | Kraibut, A., Saiwari, S., Kaewsakul, W., Noordermeer, JWM., Sahakaro, K. and Dierkes, WK. (2023). Dynamic Response and Molecular Chain Modifications Associated with Degradation during Mixing of Silica-Reinforced Natural Rubber Compounds. POLYMERS, 15(1) Cited: 1 doi: https://doi.org/10.3390/polym15010160 | ||
| 7 | Sani, NFM., Thajudin, NLN., Hayeemasae, N. and Shuib, RK. (2023). Effect of Zn2+ salt bonding on thermo-reversible self-healing natural rubber. JOURNAL OF APPLIED POLYMER SCIENCE, 140(23) Cited: 0 doi: https://doi.org/10.1002/app.53924 | ||
| 8 | Hayeemasae, N., Fathurrohman, MI. and Masa, A. (2023). Effects of Maleic Anhydride Content on Thermomechanical and Mechanical Properties of Maleated Natural Rubber. POLYMER-KOREA, 47(5), 565-573. Cited: 0 doi: https://doi.org/10.7317/pk.2023.47.5.565 | ||
| 9 | Yudha, SS., Banon, C., Falahudin, A., Reagen, MA., Kaus, NHM. and Salaeh, S. (2023). Fabrication of Silver-Silica Composite using the Carbo-thermal Degradation of Oil Palm Leaves for the Reduction of p-nitrophenol. INTERNATIONAL JOURNAL OF TECHNOLOGY, 14(2), 290-299. Cited: 3 doi: https://doi.org/10.14716/ijtech.v14i2.5608 | ||
| 10 | Jaratrotkamjorn, R., Hayeemasae, N., Zakaria, Z. and Masa, A. (2023). Influence of acid concentration on thermomechanical, tensile and thermal properties of cyclized natural rubber. JOURNAL OF ELASTOMERS AND PLASTICS, 55(5), 768-786. Cited: 1 doi: https://doi.org/10.1177/00952443231173827 | ||
| 11 | Hayeemasae, N., Soontaranon, S. and Masa, A. (2023). Influence of different vulcanizing agents on structures and properties of sepiolite-filled natural rubber composites. EXPRESS POLYMER LETTERS, 17(2), 181-195. Cited: 5 doi: https://doi.org/10.3144/expresspolymlett.2023.13 | ||
| 12 | Kaesaman, A., Romin, R. and Nakason, C. (2023). Influence of epoxide content and blend ratios on strength and damping properties of thermoplastic vulcanizates based on epoxidized natural rubber and poly(ether-block-amide) copolymer blends. EXPRESS POLYMER LETTERS, 17(10), 1056-1069. Cited: 0 doi: https://doi.org/10.3144/expresspolymlett.2023.79 | ||
| 13 | Kaesaman, A., Lamleah, S. and Nakason, C. (2023). Influence of vulcanization system on curing, mechanical, dynamic and morphological properties of maleated natural rubber and its thermoplastic vulcanizate with thermoplastic copolyester elastomer. EXPRESS POLYMER LETTERS, 17(7), 675-689. Cited: 2 doi: https://doi.org/10.3144/expresspolymlett.2023.50 | ||
| 14 | Masa, A., Jehsoh, N., Saiwari, S., Dueramae, S. and Hayeemasae, N. (2023). Microwave-assisted silver-doped zinc oxide towards antibacterial and mechanical performances of natural rubber latex film. MATERIALS TODAY COMMUNICATIONS, 34 Cited: 2 doi: https://doi.org/10.1016/j.mtcomm.2023.105475 | ||
| 15 | Suwan, A., Srichai, K., Sukhawipat, N., Pasetto, P., Saetung, A. and Saetung, N. (2023). New waterborne polyurethane/silica hybrid dispersions based on natural rubber and prepared by sol-gel process: Effects of amino alkoxy-silane and nano-silica contents on dispersion stability and films properties. PROGRESS IN ORGANIC COATINGS, 184 Cited: 1 doi: https://doi.org/10.1016/j.porgcoat.2023.107835 | ||
| 16 | Hayeemasae, N., Adair, A., Soontaranon, S., Rasidi, MSM. and Masa, A. (2023). Optimising silane coupling agent content in phenolic-resin-cured sepiolite-filled natural rubber composites. JOURNAL OF RUBBER RESEARCH, 26(4), 303-312. Cited: 1 doi: https://doi.org/10.1007/s42464-023-00210-w | ||
| 17 | Mohamed, NR., Othman, N., Shuib, RK. and Hayeemasae, N. (2023). Perspective on opportunities of bio-based processing oil to rubber industry: a short review. IRANIAN POLYMER JOURNAL, 32(11), 1455-1475. Cited: 1 doi: https://doi.org/10.1007/s13726-023-01203-7 | ||
| 18 | Viet, CX., Masa, A., Shuib, RK., Ismail, H. and Hayeemasae, N. (2023). Properties of compatibilised kenaf-filled recycled high-density polyethylene/natural rubber blends under natural weathering condition. JOURNAL OF RUBBER RESEARCH, 26(1), 17-26. Cited: 0 doi: https://doi.org/10.1007/s42464-023-00194-7 | ||
| 19 | Kassim, MAB., Kaus, NHM., Imam, SS., Sagadevan, S. and Salaeh, S. (2023). Rapid and facile chemical synthesis of Fe3O4/biochar nanocomposite for the adsorptive removal of fluoroquinolones from aqueous solution. INORGANIC CHEMISTRY COMMUNICATIONS, 156 Cited: 1 doi: https://doi.org/10.1016/j.inoche.2023.111156 | ||
| 20 | Wongvasana, B., Thongnuanchan, B., Masa, A., Saito, H., Sakai, T. and Lopattananon, N. (2023). Reinforcement Behavior of Chemically Unmodified Cellulose Nanofiber in Natural Rubber Nanocomposites. POLYMERS, 15(5) Cited: 7 doi: https://doi.org/10.3390/polym15051274 | ||
| 21 | Razuki, A., Kaus, NHM., Sagadevann, S., Salaeh, S., Ibrahim, ML. and Abdullah, MMA. (2023). Revolutionizing biodiesel production: A breakthrough synthesis and characterization of bismuth ferrite nanocatalysts for transesterification of palm and waste cooking oil. FUEL, 346 Cited: 3 doi: https://doi.org/10.1016/j.fuel.2023.128413 | ||
| 22 | Wongvasana, B., Thongnuanchan, B., Masa, A., Saito, H., Sakai, T. and Lopattananon, N. (2023). Structure-Property Correlation in Natural Rubber Nanocomposite Foams: A Comparison between Nanoclay and Cellulose Nanofiber Used as Nanofillers. POLYMERS, 15(21) Cited: 0 doi: https://doi.org/10.3390/polym15214223 | ||
| 23 | Hayeemasae, N., Viet, CX., Masa, A., Shuib, RK., Ismail, H. and Surya, I. (2023). The Use of Kenaf Fibre as a Natural Anti-Degradant in Recycled High-Density Polyethylene and Natural Rubber-Based Thermoplastic Elastomers. POLYMERS, 15(5) Cited: 0 doi: https://doi.org/10.3390/polym15051237 | ||
| 24 | Salaeh, S., Thongnuanchan, B., Bueraheng, Y., Das, A., Kaus, NHM. and Wiessner, S. (2023). The utilization of glycerol and xylitol in bio-based vitrimer-like elastomer: Toward more environmentally friendly recyclable and thermally healable crosslinked rubber. EUROPEAN POLYMER JOURNAL, 198 Cited: 0 doi: https://doi.org/10.1016/j.eurpolymj.2023.112422 | ||
| 25 | Sripornsawat, B., Georgopoulou, A., Tulaphol, S., Thitithammawong, A., Johns, J., Nakaramontri, Y. and Clemens, F. (2023). Use of modified deep eutectic solvent as an additional chemical in a flexible conductive natural rubber sensor for motion analysis. EXPRESS POLYMER LETTERS, 17(1), 69-89. Cited: 5 doi: https://doi.org/10.3144/expresspolymlett.2023.6 | ||
| 26 | Hayeemasae, N., Masa, A., Othman, N. and Surya, I. (2023). Viable Properties of Natural Rubber/Halloysite Nanotubes Composites Affected by Various Silanes. POLYMERS, 15(1) Cited: 3 doi: https://doi.org/10.3390/polym15010029 | ||
| รวม WoS/ISI 26 รายการ 43 citations | |||
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