340302. Macromolecular materials
| Title | 340302. Macromolecular materials |
|---|---|
| Parent | 3403. Macromolecular and materials chemistry |
Latest research outputs
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3D enabled facile fabrication of substrates with human tongue characteristics for analysing the tribological behaviour of food emulsions
Fan, Juan, Annamalai, Pratheep K. and Prakash, Sangeeta. 2021. "3D enabled facile fabrication of substrates with human tongue characteristics for analysing the tribological behaviour of food emulsions." Innovative Food Science and Emerging Technologies. 73. https://doi.org/10.1016/j.ifset.2021.102803Article
A Durable, Flexible, Large-Area, Flame-Retardant, Early Fire Warning Sensor with Built-In Patterned Electrodes
Khan, Fawad, Wang, Shanchi, Ma, Zhewen, Ahmed, Adnan, Song, Pingan, Xu, Zhiguang, Liu, Riping, Chi, Huanjie, Gu, Jiayi, Tang, Long-Cheng and Zhao, Yan. 2021. "A Durable, Flexible, Large-Area, Flame-Retardant, Early Fire Warning Sensor with Built-In Patterned Electrodes." Small Methods. 5 (4), pp. 1-12. https://doi.org/10.1002/smtd.202001040Article
A molecularly engineered bioderived polyphosphonate containing Schiff base towards fire-retardant PLA with enhanced crystallinity and mechanical properties
Xue, Yijiao, Zhang, Tianchen, Tian, Linfeng, Feng, Jiabing, Song, Fei, Pan, Zheng, Zhang, Meng, Zhou, Yonghong and Song, Pingan. 2023. "A molecularly engineered bioderived polyphosphonate containing Schiff base towards fire-retardant PLA with enhanced crystallinity and mechanical properties." Chemical Engineering Journal. 472. https://doi.org/10.1016/j.cej.2023.144986Article
A Sensitive Lead-Free Perovskite Photodetector for Self-Powered Blue Light Hazard Detection Application
An, Xiang, Zhu, Zhi-Guo, Liu, Zheng, Zhang, Xiang, Wang, Jiang, Li, Zong-Yang, Wang, Li, Wu, Chun-Yan, Liang, Feng-Xia, Song, Ping-An and Luo, Lin-Bao. 2024. "A Sensitive Lead-Free Perovskite Photodetector for Self-Powered Blue Light Hazard Detection Application." IEEE Electron Device Letters. 45 (7), pp. 1237-1240. https://doi.org/10.1109/LED.2024.3394442Article
A simple methodology for improving the performance and sustainability of rigid polyurethane foam by incorporating industrial lignin
Hayati, Amir Nemati, Evans, David Alwyn Charles, Laycock, Bronwyn, Martin, Darren James and Annamalai, Pratheep Kumar. 2018. "A simple methodology for improving the performance and sustainability of rigid polyurethane foam by incorporating industrial lignin." Industrial Crops and Products. 117, pp. 149-158. https://doi.org/10.1016/j.indcrop.2018.03.006Article
A systematic study substituting polyether polyol with palm kernel oil based polyester polyol in rigid polyurethane foam
Septevani, Athanasia A., Evans, David A.C., Chaleat, Celine, Martin, Darren J. and Annamalai, Pratheep K.. 2015. "A systematic study substituting polyether polyol with palm kernel oil based polyester polyol in rigid polyurethane foam." Industrial Crops and Products. 66, pp. 16-26. https://doi.org/10.1016/j.indcrop.2014.11.053Article
Achieving ultra-tear resistant high-performance natural rubber nanocomposite via bio-inspired lignocellulosic compatibilization
Hosseinmardi, Alireza, Amiralian, Nasim, Martin, Darren J. and Annamalai, Pratheep K.. 2024. "Achieving ultra-tear resistant high-performance natural rubber nanocomposite via bio-inspired lignocellulosic compatibilization." Industrial Crops and Products. 207 (Part 1). https://doi.org/10.1016/j.indcrop.2023.117729Article
An overview on the degradability of polymer nanocomposites
Pandey, Jitendra K., Reddy, K. Raghunatha, Kumar, A. Pratheep and Singh, R.P.. 2005. "An overview on the degradability of polymer nanocomposites." Polymer Degradation and Stability. 88 (2), pp. 234-250. https://doi.org/10.1016/j.polymdegradstab.2004.09.013Article
Biocomposites of cellulose reinforced starch: improvement of properties by photo-induced crosslinking
Kumar, Annamalai Pratheep and Singh, Raj Pal. 2008. "Biocomposites of cellulose reinforced starch: improvement of properties by photo-induced crosslinking." Bioresource Technology. 99 (18), pp. 8803-8809. https://doi.org/10.1016/j.biortech.2008.04.045Article
Biodegradation of packaging materials: Composting of polyolefins
Pandey, Jitendra K., Kumar, A. Pratheep and Singh, R.P.. 2003. "Biodegradation of packaging materials: Composting of polyolefins." Macromolecular Symposia. 197 (1), pp. 411-420. https://doi.org/10.1002/masy.200350735Article
Biodegradation of γ-sterilised biomedical polyolefins under composting and fungal culture environments
Alariqi, Sameh A.S., Kumar, A. Pratheep, Rao, B.S.M. and Singh, R.P.. 2006. "Biodegradation of γ-sterilised biomedical polyolefins under composting and fungal culture environments." Polymer Degradation and Stability. 91 (5), pp. 1105-1116. https://doi.org/10.1016/j.polymdegradstab.2005.07.004Article
Bioinspired Mechanically Adaptive Polymer Nanocomposites with Water-Activated Shape-Memory Effect
Mendez, Julie, Annamalai, Pratheep K., Eichhorn, Stephen J., Rusli, Rafeadah, Rowan, Stuart J., Foste, E. Johan and Weder, Christoph. 2011. "Bioinspired Mechanically Adaptive Polymer Nanocomposites with Water-Activated Shape-Memory Effect." Macromolecules. 44 (17), pp. 6827-6835. https://doi.org/10.1021/ma201502kArticle
Bioinspired, Strong, and Tough Nanostructured Poly(vinyl alcohol)/Inositol Composites: How Hydrogen-Bond Cross-Linking Works?
Xu, Xiaodong, Li, Lujuan, Seraji, Seyed Mohsen, Liu, Lei, Jiang, Zhen, Xu, Zhiguang, Li, Xin, Zhao, Sheng, Wang, Hao and Song, Pingan. 2020. "Bioinspired, Strong, and Tough Nanostructured Poly(vinyl alcohol)/Inositol Composites: How Hydrogen-Bond Cross-Linking Works?" Macromolecules. 54 (20), pp. 9510-9521. https://doi.org/10.1021/acs.macromol.1c01725Article
Can clay nanoparticles accelerate environmental biodegradation of polyolefins?
Annamalai, P. K. and Martin, D. J.. 2014. "Can clay nanoparticles accelerate environmental biodegradation of polyolefins?" Materials Science and Technology. 30 (5), pp. 593-602. https://doi.org/10.1179/1743284713y.0000000498Article
Cell proliferation and controlled drug release studies of nanohybrids based on chitosan-g-lactic acid and montmorillonite
Depan, Dilip, Annamalai, Annamalai Pratheep and Singh, Raj Pal. 2009. "Cell proliferation and controlled drug release studies of nanohybrids based on chitosan-g-lactic acid and montmorillonite." Acta Biomaterialia. 5 (1), pp. 93-100. https://doi.org/10.1016/j.actbio.2008.08.007Article
Cellulose Nanocrystals with Enhanced Thermal Stability Reinforced Thermoplastic Polyurethane
Amin, Khairatun Najwa, Annamalai, , Pratheep Kumar and Martin, Darren. 2017. "Cellulose Nanocrystals with Enhanced Thermal Stability Reinforced Thermoplastic Polyurethane." Malaysian Journal of Analytical Sciences. 21 (3), pp. 754-761. https://doi.org/10.17576/mjas-2017-2103-25Article
Cellulose Nanofibers as Rheology Modifiers and Enhancers of Carbonization Efficiency in Polyacrylonitrile
Jiang, Edward, Amiralian, Nasim, Maghe, Maxime, Laycock, Bronwyn, McFarland, Eric M, Fox, Bronwyn F, Martin, D.J. and Annamalai, Pratheep K.. 2017. "Cellulose Nanofibers as Rheology Modifiers and Enhancers of Carbonization Efficiency in Polyacrylonitrile." ACS Sustainable Chemistry and Engineering. 5 (4), pp. 3296-3304. https://doi.org/10.1021/acssuschemeng.6b03144Article
Cleaner and scalable processing of cellulose nanocrystal reinforced thermoplastic polyurethane nanocomposites
Mohd Amin, Khairatun Najwa, Amin, Mohd, Annamalai, Pratheep Kumar, Edwards, Grant A.B., Chaleat, Celine and Martin, Darren J.. 2016. "Cleaner and scalable processing of cellulose nanocrystal reinforced thermoplastic polyurethane nanocomposites." TAPPI International Conference on Nanotechnology for Renewable Materials 2016. Grenoble, France 13 - 16 Jun 2016 France.Paper
Commercial aspects associated with bio-nanocomposites
Lonkar, Sunil P., Kumar, A. Pratheep and Singh, R. P.. 2011. "Commercial aspects associated with bio-nanocomposites." Nanocomposites with Biodegradable Polymers: Synthesis, Properties, and Future Perspectives. United Kingdom. Oxford University Press. pp. 400-420Edited book (chapter)
Conducting polymer–graphite binary and hybrid composites
Ramanujam, B.T.S. and Annamalai, Pratheep K.. 2017. "Conducting polymer–graphite binary and hybrid composites." Thakur, Vijay Kumar, Thakur, Manju Kumari and Pappu, Asokan (ed.) Hybrid Polymer Composite Materials. India. Elsevier. pp. 1-34Edited book (chapter)
Development of exfoliated mica waste/natural rubber composites by latex stage mixing
Somarathna, Y.R., Rathnayake, G.L.H., Rupasinghe, P.S.V., Samarasinghe, I.H.K., Sudusingha, Y.C.Y., Siriwardena, S. and Epaarachchi, J.A.. 2023. "Development of exfoliated mica waste/natural rubber composites by latex stage mixing." Polymer-Plastics Technology and Materials. 62 (16), pp. 2143-2158. https://doi.org/10.1080/25740881.2023.2252894Article
Dip-and-Drag Lateral Force Spectroscopy for Measuring Adhesive Forces between Nanofibers
Dolan, Grace K., Yakubov, Gleb E., Greene, George W., Amiralian, NasimNasim, Annamalai, Pratheep K., Martin, Darren J. and Stokes, Jason R.. 2016. "Dip-and-Drag Lateral Force Spectroscopy for Measuring Adhesive Forces between Nanofibers." Langmuir: the ACS journal of surfaces and colloids. 32 (50), pp. 13340-13348. https://doi.org/10.1021/acs.langmuir.6b03467Article
Dispersion Methodology for Technical Lignin into Polyester Polyol for High-Performance Polyurethane Insulation Foam
Haridevan, Hima, McLaggan, Martyn S., Evans, David A.C., Martin, Darren J., Seaby, Trent, Zhang, Zhanying and Annamalai, Pratheep K.. 2021. "Dispersion Methodology for Technical Lignin into Polyester Polyol for High-Performance Polyurethane Insulation Foam." ACS Applied Polymer Materials. 3 (7), pp. 3528-3537. https://doi.org/10.1021/acsapm.1c00430Article
Dual Post-Treatments Boost Thermoelectric Performance of PEDOT:PSS Films and Their Devices
Wu, Ting, Shi, Xiao-Lei, Liu, Wei-Di, Sun, Shuai, Liu, Qingfeng and Chen, Zhi-Gang. 2022. "Dual Post-Treatments Boost Thermoelectric Performance of PEDOT:PSS Films and Their Devices." Macromolecular Materials and Engineering. 307 (12). https://doi.org/10.1002/mame.202200411Article
Easily deconstructed, high aspect ratio cellulose nanofibres from Triodia pungens; an abundant grass of Australia's arid zone
Amiralian, Nasim, Annamalai, Pratheep K., Memmott, Paul, Taran, Elena, Schmidt, Susanne and Martin, Darren J.. 2015. "Easily deconstructed, high aspect ratio cellulose nanofibres from Triodia pungens; an abundant grass of Australia's arid zone." RSC Advances: an international journal to further the chemical sciences. 5 (41), pp. 32124-32132. https://doi.org/10.1039/c5ra02936hArticle
Effect of γ-dose rate on crystallinity and morphological changes of γ-sterilized biomedical polypropylene
Alariqi, Sameh A.S., Annamalai, A. Pratheep, Rao, B.S.M. and Singh, R.P.. 2009. "Effect of γ-dose rate on crystallinity and morphological changes of γ-sterilized biomedical polypropylene." Polymer Degradation and Stability. 94 (2), pp. 272-277. https://doi.org/10.1016/j.polymdegradstab.2008.10.027Article
Effects of Latex Type and Processed-Mica Waste Loading on the Structural and Thermo-Physical Properties of Natural Rubber Latex Foam Composites
Dananjaya, Vimukthi, Somarathna, Yashoda, Siriwardena, Susantha, Sirimuthu, Narayana, Karunanayake, Laleen and Abeykoon, Chamil. 2024. "Effects of Latex Type and Processed-Mica Waste Loading on the Structural and Thermo-Physical Properties of Natural Rubber Latex Foam Composites." International Journal of Lightweight Materials and Manufacture. 7 (3), pp. 450-466. https://doi.org/10.1016/j.ijlmm.2023.12.002Article
Enhanced dispersion of lignin in pet polyols for improved thermal insulation of polyurethane foams
Haridevan, Hima, Birnie, David, Evans, David A.C., Martin, Darren J. and Annamalai, Pratheep K.. 2021. "Enhanced dispersion of lignin in pet polyols for improved thermal insulation of polyurethane foams." Annual Technical Conference for Plastic Professionals (ANTEC 2021). Online 10 - 21 May 2021 United States.Paper
Erratum to “Optimization of resin extraction from an Australian arid grass ‘Triodia pungens’ and its preliminary evaluation as an anti-termite timber coating” [Ind. Crops Prod. 59 (2014) 241–247]
Amiralian, Nasim, Annamalai, Pratheep K., Fitzgerald, Chris, Memmott, Paul and Martin, Darren J.. 2015. "Erratum to “Optimization of resin extraction from an Australian arid grass ‘Triodia pungens’ and its preliminary evaluation as an anti-termite timber coating” [Ind. Crops Prod. 59 (2014) 241–247]." Industrial Crops and Products. 67, pp. 512-512. https://doi.org/10.1016/j.indcrop.2014.12.037Notes or commentaries
Facile and green fabrication of flame-retardant Ti3C2Tx MXene networks for ultrafast, reusable and weather-resistant fire warning
Mao, Min, Yu, Ke-xin, Cao, Cheng-fei, Gong, Li-Xiu, Zhang, Guo-dong, Zhao, Li, Song, Pingan, Gao, Jie-feng and Tang, Long-Cheng. 2022. "Facile and green fabrication of flame-retardant Ti3C2Tx MXene networks for ultrafast, reusable and weather-resistant fire warning." Chemical Engineering Journal. 427, pp. 1-11. https://doi.org/10.1016/j.cej.2021.131615Article
Facile Tuning of the Surface Energy of Cellulose Nanofibers for Nanocomposite Reinforcement
Hosseinmardi, Alireza, Annamalai, Pratheep Kumar, Martine, Benoit, Pennells, Jordan, Martin, Darren J. and Amiralian, Nasim. 2018. "Facile Tuning of the Surface Energy of Cellulose Nanofibers for Nanocomposite Reinforcement." ACS Omega. 3 (11), pp. 15933-15942. https://doi.org/10.1021/acsomega.8b02104Article
Fire-retardant and high-strength polymeric materials enabled by supramolecular aggregates
Liu, Lei, Zhu, Menghe, Feng, Jiabing, Peng, Hong, Shi, Yongqian, Gao, Jiefeng, Tang, Long-Cheng and Song, Pingan. 2024. "Fire-retardant and high-strength polymeric materials enabled by supramolecular aggregates." Aggregate. 5 (2). https://doi.org/10.1002/agt2.494Article
Flame-retardant, transparent, mechanically-strong and tough epoxy resin enabled by high-efficiency multifunctional boron-based polyphosphonamide
Huo, Siqi, Zhou, Zhongxiao, Jiang, Jiawei, Sai, Ting, Ran, Shiya, Fang, Zhengping, Song, Pingan and Wang, Hao. 2022. "Flame-retardant, transparent, mechanically-strong and tough epoxy resin enabled by high-efficiency multifunctional boron-based polyphosphonamide." Chemical Engineering Journal. 427, pp. 1-15. https://doi.org/10.1016/j.cej.2021.131578Article
Green and Scalable Fabrication of Core–Shell Biobased Flame Retardants for Reducing Flammability of Polylactic Acid
Xiong, Zhengquan, Zhang, Yan, Du, Xiaoyang, Song, Pingan and Fang, Zhengping. 2019. "Green and Scalable Fabrication of Core–Shell Biobased Flame Retardants for Reducing Flammability of Polylactic Acid." ACS Sustainable Chemistry and Engineering. 7 (9), pp. 8954-8963. https://doi.org/10.1021/acssuschemeng.9b01016Article
High aspect ratio nanocellulose from an extremophile spinifex grass by controlled acid hydrolysis
Amiralian, Nasim, Annamalai, . Pratheep K., Garvey, Christopher J., Jiang, Edward, Memmott, Paul and Martin, Darren J.. 2017. "High aspect ratio nanocellulose from an extremophile spinifex grass by controlled acid hydrolysis." Cellulose. 24 (9), pp. 3753-3766. https://doi.org/10.1007/s10570-017-1379-6Article
High-Resolution R2R-Compatible Printing of Carbon Nanotube Conductive Patterns Enabled by Cellulose Nanocrystals
Corletto, Alexander, Hosseinmardi, Alireza, Annamalai, Pratheep Kumar, Martin, Darren J. and Shapter, Joseph G.. 2022. "High-Resolution R2R-Compatible Printing of Carbon Nanotube Conductive Patterns Enabled by Cellulose Nanocrystals." ACS Applied Nano Materials. 5 (1), pp. 1574-1587. https://doi.org/10.1021/acsanm.1c04320Article
Highly Stretchable, Ultratough, and Strong Polyesters with Improved Postcrystallization Optical Property Enabled by Dynamic Multiple Hydrogen Bonds
Sun, Shuai, Xue, Yijiao, Xu, Xiaodong, Ding, Liping, Jiang, Zhen, Meng, Linghui, Song, Pingan and Bai, Yongping. 2021. "Highly Stretchable, Ultratough, and Strong Polyesters with Improved Postcrystallization Optical Property Enabled by Dynamic Multiple Hydrogen Bonds." Macromolecules. 54 (3), pp. 1254-1266. https://doi.org/10.1021/acs.macromol.0c02628Article
Hybrid polyether-palm oil polyester polyol based rigid polyurethane foam reinforced with cellulose nanocrystal
Septevani, Athanasia A., Evans, David A.C., Martin, Darren J. and Annamalai, Pratheep K.. 2018. "Hybrid polyether-palm oil polyester polyol based rigid polyurethane foam reinforced with cellulose nanocrystal." Industrial Crops and Products. 112, pp. 378-388. https://doi.org/10.1016/j.indcrop.2017.12.032Article
Influence of Different Nanocellulose Additives on Processing and Performance of PAN-Based Carbon Fibers
Jiang, Edward, Maghe, Maxime, Zohdi, Nima, Amiralian, Nasim, Naebe, Minoo, Laycock, Bronwyn, Fox, Bronwyn L., Martin, Darren J. and Annamalai, Pratheep K.. 2019. "Influence of Different Nanocellulose Additives on Processing and Performance of PAN-Based Carbon Fibers." ACS Omega. 4 (6), pp. 9720-9730. https://doi.org/10.1021/acsomega.9b00266Article
Insights into the hydrogen-bond cross-linking effects of small multiamine molecules on physical and mechanical properties of poly(vinly alcohol) by molecular dynamics simulations
Li, Lujuan, Xu, Xiaodong, Song, Pingan, Cao, Qianqian, Qiao, Xin, Xu, Zhiguang, Yang, Yang, Zuo, Chuncheng and Wang, Hao. 2021. "Insights into the hydrogen-bond cross-linking effects of small multiamine molecules on physical and mechanical properties of poly(vinly alcohol) by molecular dynamics simulations." Modelling and Simulation in Materials Science and Engineering. 29 (3), pp. 1-15. https://doi.org/10.1088/1361-651X/abe0aaArticle