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Methodology Materials.
Rehman, Azo dyes degradation by microorganisms – an efficient and sustainable approach, Saudi Journal of Biological Sciences. 29 (2022) 103437
Perez, Kinetics and isotherm studies of methyl orange adsorption using polyethyleneimine-graphene oxide polymer nanocomposite beads, Key Engineering Materials. 801 (2019) 304–310
Perez, Optimization of chitosan - mil-101(fe) - polyethyleneimine MOF-based composite beads for methyl orange removal, Materials Science Forum. 1112 (2024) 101–108
White, et al., Materials characterization, Acoustic Wave Sensors. (1997) 150–221.

Introduction Recently, Silver nanoparticles (AgNPs), a huge interest metal, were applied in various industry fields such as electronics, antibacterial agent, medical science, optical device and catalytic support, etc. [1].
Experimental Materials All chemicals used for synthesis silver nanoparticles; silver nitrate (AgNO3) and ethanol were analytical grade and purchased from Merck.
Karnati, Green synthesis and characterization of Carica papaya leaf extract coated silver nanoparticles through X-ray diffraction, electron microscopy and evaluation of bactericidal properties, Saudi Journal of Biological Sciences (in press)
Mirja, Transfer of Bacillus cereus spores from packaging paper into food, Journal of Food Protection 72 (2009) 2236-2242
Dutschk, Novel method for synthesis of silver nanoparticles and their application on wool, Applied Surface Science 346(2015), 447-483

Effects of LiCF3SO3 on PVDF-HFP/MG49 (70/30) based blend polymer electrolyte Narges Ataollahi1, Azizan Ahmad1,2,a, Harun Haji Hamzah1,2, Mohd Yusri Rahman3 , Nor Sabirin Mohamed4 1 School of Chemical Sciences and Food Technology, Faculty of Science and Technology 2Polymer Research Center, Faculty of Science and Technology Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia 3 College of Engineering, Universiti Tenaga Nasional, 43009, Kajang, Selangor, Malaysia 4Center of Foundation Studies, University Malaya, 50603, Kuala Lumpur, Malaysia aCorresponding author: azizan@ukm.my Keywords: PVDF-HFP, MG49, LiCF3SO3, Polymer electrolyte.
Acknowledgment The author gratefully acknowledges School of Chemical Sciences and Food Technology, Faculty of Science and Technology, Universiti Kebangsaan Malaysia for allowing this research to be carried out.
European Polymer Journal 38 (1) (2002), p. 49 [2] S.
Advanced Materials Research Vol. 501, (2012), p.29 [7] J.
Journal of Power Sources Vol.124 (2003), p. 225 [9] W.

Introduction Microfluidic chip is a technique to produce microfluidic unit (micro-pumps, micro valves, micro-heaters, micro sensors, micro-flow controller, and micro-detectors) on silicon, glass, polymer, and other materials by using of micro-electromechanical system (MEMS).
Acknowledgements This work was financially supported by the key project in the national science & technology pillar program during the eleventh five-year plan period (2009BAK59B02).
Chinese Journal of Scientific Instrument.
Chinese Journal of Scientific Instrument.
Journal of Micromechanics and Microengineering.

Acknowledgement This work was partially supported by The national natural science foundation of China (51375176) References [1]Yong Tang,Minqiang Pan,Xingxian Tang.Development and key manufacture technique of functional surface structures for heat transfer[J].China surface engineering,2010,23(1):1-8(in Chinese)
Journal of Materials Processing Technology, 2003, 138: 385-389
Research on Cutting-press Shaping Process of Fin Tube, Chinese Journal of Mechanical Engineering, 2005, 16(17):1550-1553(in Chinese) [4] Zhenping Wan, Hui Yan H, Yong Tang.
Journal of South China University of Technology（Natural Science Edition）, 2011,39(8):13-18

A lot of heat is produced and transformation between electric energy and thermal energy of material is realized.
This kind of heating can make internal and external material hot simultaneously and has the virtues of rapid heating, deep penetration, excellent controllability, et al[1].
Acknowledgements This work was supported by the National Natural Science Foundation of China (51106001), the Specialized Research Fund of Science and Technology Production Translation of Jiangsu Province (BA2006068) and the Scientific Research Foundation for Introduction Talent of Anhui Polytechnic University (2010YQQ004).
Journal of National University of Defense Technology, Vol.20, NO.3, 1998: 106-109.
[3] Zhu Songqing, Shi Jinfei, Wang Hongxiang．Modeling and experiment of microwave heating for hot in-place recycling of asphalt pavements[J]．Journal of Southeast University, 2006, 36(3): 393-396.

Tekkaya, Stress state control by a novel bending process and its effect on damage evolution, Volume 2: Materials.
Fatigue and Fracture of Engineering Materials and Structures 21 (1998) 1473–1484. doi:10.1002/pamm.201410492
Journal of Manufacturing Science and Engineering 145 (1) (2023), 011011. doi:10.1115/1.4056266
Procedia Materials Science, Volume 3 (2014) 209-214. doi: 10.1016/j.mspro.2014.06.037
Materials 13 (11) (2020). doi:10.3390/ma13112463.

Effect of Y2O3/La2O3 proportion on the mechanical properties of Cf/SiC composites Zhang Yunlong1,2, Zhang Yumin1*, Hu Ming2, Li Jinping1 (1- Center for Composite Materials, Harbin Institute of Technology, Harbin ,PR China 150080) (2- Collage of Materials Science & Engineering of Jiamusi University, Jiamusi, China, 154007) (a ylzhdr@126.com, b*zhym@hit.edu.cn, cminghu02@163.com,d lijinping@hit.edu.cn) Abstract In this paper, the commercial α-SiC powder and bargain price La2O3/Y2O3 additives were utilized to fabricate SiC matrix composites.
Materials fabrication and Characterization The mixture of α-SiC powder (D50=0.5μm, purity 99.5%) and carbon fibers (3mm longth, the volume proportion of SiC to carbon fiber was 7:3) was applied to fabricate the Cf/SiC composites.
Acknowledgement The authors were grateful for support by the Chinese Postdoctoral Science Foundation (No.2012M520754), National Science Foundation of China (No.51271088)，The science and technology innovation team of Jiamusi university (No.Cxtd-2013-03) and Major State Basic Research Development Program (No.2014CB46505).
Journal of the European Ceramic Society,1996,16(4):413-420
Journal of the European Ceramic Society,2007,27(13): 3935-3939

Application of insect dung as raw materials and efficient bio-organic fertilizer not only fertility fertility, increased crop yields, improve quality of agricultural products, but also reduce the cost of agricultural production, improve soil structure, improve agricultural ecological environment and promote sustainable development of farming.
As a live high-protein animal feed, apply special breeding industry; as raw materials, used in high-protein feed processing, feed additives and highly nutritious functional food processing; through processing, oil extraction insects, drugs, and lysozyme, chitosan bio-chemical products.
Acknowledgment This work is supported by natural science project of Suzhou University (2011yzk14).
References [1] Fuzhong Wu, Huafeng Lin and Zhihong Liu: Chinese Agricultural Science Bulletin.Vol. 21 (2005), p. 72 [2] Wei Zhang, Shusen Shi: Forestry Science.Vol. 27 (2000), p. 8 [3] Kaishu, Du, Liying Cai: Journal of Anhui Agri.
Vol. 123 (2004), p. 47 [6] Xihai Dun: Journal of Economi Animal.

The material of the model was Kirinoki, of which the mechanical property index was shown in Table 2.
Acknowledgements This work was financially supported by the Natural Science Foundation of China (50908015), Shaanxi Natural Science Foundation (SJ08E204), the Natural Science Basic Research Plan in Shaanxi Province of China (2010JQ7006), China Postdoctoral Science Foundation (20100481313), the Special Fund for Basic Scientific Research of Central Colleges- Chang’ an University and Basic Research Fund of Chang’ an University (CHD2009JC068).
[2] Xinghua Zhu, Fanglin Huang and Liugang Zhang: Journal of Railway Science and Engineering, Vol. 7 (2010), p. 86-89, in Chinese
[8] Xiang Liu, Min Wang and Jian Li: Journal of Wuhan University of Technology, Vol. 32 (2010), p.175-177, in Chinese
[10] Yueqiang Ma: Journal of Shijiazhuang Railway University of Technology, Vol. 23 (2010), p.21-25, in Chinese