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Online since: June 2015
Authors: Fauziahanim Che Seman, Chin Fhong Soon, R. Mohamad Zin
(1)
Materials and Methods
Preparation of HSF54 Carbon Composite Electrodes.
Żenkiewicz, Methods for the calculation of surface free energy of solids, Journal of Achievements in Materials and Manufacturing Engineering, 24 (2007) 137-145
I. polytetrafluoroethylene, Journal of Colloid Science, 5 (1950) 514-531
Neumann, Low-rate dynamic contact angles on poly (methyl methacrylate) and the determination of solid surface tensions, Journal of colloid and interface science, 206 (1998) 44-51
Nafarizal, Fabrication and Characterisation of the Electrical and Physical Properties of the Mask Printed Graphite Paste Electrodes on Paper Substrates, Advanced Materials Research, 925 (2014) 510-513
Żenkiewicz, Methods for the calculation of surface free energy of solids, Journal of Achievements in Materials and Manufacturing Engineering, 24 (2007) 137-145
I. polytetrafluoroethylene, Journal of Colloid Science, 5 (1950) 514-531
Neumann, Low-rate dynamic contact angles on poly (methyl methacrylate) and the determination of solid surface tensions, Journal of colloid and interface science, 206 (1998) 44-51
Nafarizal, Fabrication and Characterisation of the Electrical and Physical Properties of the Mask Printed Graphite Paste Electrodes on Paper Substrates, Advanced Materials Research, 925 (2014) 510-513
Online since: January 2023
Authors: Budi Purnama, Nurdiyantoro Putra Prasetya, Yofentina Iriani, Utari Utari
Shokrollahi, Materials Science and Engineering: C, 33(1), 1–8 (2013). doi:10.1016/j.msec.2012.09.003
Kumar Naik, Materials Science in Semiconductor Processing, 145, 106632 (2022). doi:10.1016/j.mssp.2022.106632
Venkataraman, Materials Science and Engineering: B, 271, 115299 (2021). doi:10.1016/j.mseb.2021.115299
Ahmed, Materials Science-Poland, 35(4), 868–877 (2017). doi:10.1515/msp-2017-0082
Chakravorty, Bulletin of Materials Science, 37(3), 497–504 (2014). doi:10.1007/s12034-014-0701-2
Kumar Naik, Materials Science in Semiconductor Processing, 145, 106632 (2022). doi:10.1016/j.mssp.2022.106632
Venkataraman, Materials Science and Engineering: B, 271, 115299 (2021). doi:10.1016/j.mseb.2021.115299
Ahmed, Materials Science-Poland, 35(4), 868–877 (2017). doi:10.1515/msp-2017-0082
Chakravorty, Bulletin of Materials Science, 37(3), 497–504 (2014). doi:10.1007/s12034-014-0701-2
Online since: September 2024
Authors: Mohsen A. Hassan, Wasiu Olakunle Makinde, Guoqing Guan, Ahmed S.G. Khalil
RS biochar can be synthesized from RS to serve as supercapacitor electrode materials.
Methodology 2.1 Materials: RS was obtained from a farm in New Borg El-Arab, Alexandria, Egypt.
The resulting biochar was washed with 2 M HCl to remove unreacted materials using a refluxing setup for 1 hour.
Patil et al., “Fabrication of a High-Energy Flexible All-Solid-State Supercapacitor Using Pseudocapacitive 2D-Ti3C2Tx-MXene and Battery-Type Reduced Graphene Oxide/Nickel- Cobalt Bimetal Oxide Electrode Materials,” ACS Applied Materials & Interfaces, vol. 12, no. 47, pp. 52749-52762, 2020
Dharmalingam, “Biomass derived activated carbon-based high-performance electrodes for supercapacitor applications,” Journal of Porous Materials, vol. 30, no. 1, pp. 289–301, Feb. 2023
Methodology 2.1 Materials: RS was obtained from a farm in New Borg El-Arab, Alexandria, Egypt.
The resulting biochar was washed with 2 M HCl to remove unreacted materials using a refluxing setup for 1 hour.
Patil et al., “Fabrication of a High-Energy Flexible All-Solid-State Supercapacitor Using Pseudocapacitive 2D-Ti3C2Tx-MXene and Battery-Type Reduced Graphene Oxide/Nickel- Cobalt Bimetal Oxide Electrode Materials,” ACS Applied Materials & Interfaces, vol. 12, no. 47, pp. 52749-52762, 2020
Dharmalingam, “Biomass derived activated carbon-based high-performance electrodes for supercapacitor applications,” Journal of Porous Materials, vol. 30, no. 1, pp. 289–301, Feb. 2023
Online since: August 2013
Authors: Xue Gong, Hai Yan Li, Zhen Sheng Shi, Cui Cui Yang, Xue Mei Zhong, Zhao Hui Ma, Zhi Yao Lv
Materials and methods
Experimental materials and design
The test was carried on in the trail point in Jinjia township, Changtu county of Liaoning province (east longitude 123°32'-124°26', north latitude 42°23'-43°29') from 2007 to 2011.
Dai: Journal of Maize Sciences.
Lu: Journal of Maize Science.
Chen: Journal of Maize Science.
Zhang: Journal of Maize Science.
Dai: Journal of Maize Sciences.
Lu: Journal of Maize Science.
Chen: Journal of Maize Science.
Zhang: Journal of Maize Science.
Online since: August 2013
Authors: Wei Xiang Liu
Nano-ceramic materials had high hardness and wear resistance.
Introduction With the development of science and technology, the existing general material has been difficult to meet the requirements, it is very important to develop and use effectively new materials.
Nano-ceramic thermal spray refers to those spraying materials whose particle size distribute in the range of 1~100nm, those spraying materials have high performance on a substrate. at present, thermal spraying technology has become a very active subject in the field of metal surface science.
References [1] Zhang B.Surface Integrity in Machining Hard-brittle Materials.Journal of Japan Society for Abrasive Technology,2008,47(3)
International Journal of Advanced Manufacturing Technology.
Introduction With the development of science and technology, the existing general material has been difficult to meet the requirements, it is very important to develop and use effectively new materials.
Nano-ceramic thermal spray refers to those spraying materials whose particle size distribute in the range of 1~100nm, those spraying materials have high performance on a substrate. at present, thermal spraying technology has become a very active subject in the field of metal surface science.
References [1] Zhang B.Surface Integrity in Machining Hard-brittle Materials.Journal of Japan Society for Abrasive Technology,2008,47(3)
International Journal of Advanced Manufacturing Technology.
Online since: January 2010
Authors: V. Bounor-Legare, Isabel Moura, Regina Nogueira, Ana Vera Machado
Experimental
Materials.
Ikada: Journal of Applied Polymer Science Vol. 67, issue 3 (1998), p. 405 [5] G.
Bastioli: Journal of Applied Polymer Science Vol. 59, issue 1 (1996), p. 37 [6] J.
Henton: Advanced Materials Vol. 23 (2000), p.1841 [8] Y.
Suzuki: Journal of Applied Polymer Science Vol. 2 (2003), p. 441 [9] Y.
Ikada: Journal of Applied Polymer Science Vol. 67, issue 3 (1998), p. 405 [5] G.
Bastioli: Journal of Applied Polymer Science Vol. 59, issue 1 (1996), p. 37 [6] J.
Henton: Advanced Materials Vol. 23 (2000), p.1841 [8] Y.
Suzuki: Journal of Applied Polymer Science Vol. 2 (2003), p. 441 [9] Y.
Online since: November 2011
Authors: Cheng Yao Gao
In this frame, several anode materials have been tested, but some of them presented a rapid loss of activity due to surface fouling (glassy carbon) others released toxic ions (PbO2)[4] and others showed a limited service life (SnO2)[5].
Olivi, Journal of Hazardous Materials, vol. 180(2010), p. 429 [6] J.
Yang, Journal of Hazardous Materials, vol. 179 (2010), p. 762 [7] C.
Gu, Chemical Engineering Journal, vol. 161(2010), p. 93 [8] V.
Jiang, Journal of the Electrochemical Society, vol. 156 (2009), p.
Olivi, Journal of Hazardous Materials, vol. 180(2010), p. 429 [6] J.
Yang, Journal of Hazardous Materials, vol. 179 (2010), p. 762 [7] C.
Gu, Chemical Engineering Journal, vol. 161(2010), p. 93 [8] V.
Jiang, Journal of the Electrochemical Society, vol. 156 (2009), p.
Online since: December 2013
Authors: C.M. Ruzaidi, Hussin Kamarudin, Azlin Fazlina Osman, Daud Yusrina Mat
Materials Science and Engineering: R: Reports, 28(1-2): p. 1-63
Journal of Materials Research(USA), 8(5): p. 1179-1184
Journal of Materials Science, 31(13): p. 3589-3596
Materials, 8: p. 29–35
Journal Application Polymer Science, 100:p.4748-4756
Journal of Materials Research(USA), 8(5): p. 1179-1184
Journal of Materials Science, 31(13): p. 3589-3596
Materials, 8: p. 29–35
Journal Application Polymer Science, 100:p.4748-4756
Online since: April 2013
Authors: Fang Wang, Lu Li
Hwang: Journal of Materials Processing Technology.
Kobayashi: International Journal of Mechanical Sciences.
[7] Saiki H, Marumo Y: Journal of Materials Processing Technology.
Jou: Journal of Materials Processing Technology.
Hwang: Journal of Materials Processing Technology.
Kobayashi: International Journal of Mechanical Sciences.
[7] Saiki H, Marumo Y: Journal of Materials Processing Technology.
Jou: Journal of Materials Processing Technology.
Hwang: Journal of Materials Processing Technology.
Online since: February 2012
Authors: Yue Jing Zhao, Zhi Ying Qin
By the vibration acted on the sieve, the materials are loosed, are divided into layers, are transported and are permeated the sieve to screen the materials.
By the vibration acted on the sieve, materials are loosed, are divided into layers, are transported and are permeated the sieve to screen the materials [1,2].
Materials particles are fed into the sieve from one end of sieve.
In the screening work, feeding materials, penetrating sieve, conveying, and draining materials are continuous process.
Journal of China Coal Society. 2010.
By the vibration acted on the sieve, materials are loosed, are divided into layers, are transported and are permeated the sieve to screen the materials [1,2].
Materials particles are fed into the sieve from one end of sieve.
In the screening work, feeding materials, penetrating sieve, conveying, and draining materials are continuous process.
Journal of China Coal Society. 2010.