Super inkjet technology machine development for additive 3D manufacturing

  • 1 Center of Microdiagnostics, Saint-Petersburg State Electrotechnical University, Russia

Abstract

The novel approach of fully digital and maskless manufacturing of electronic devices requires new technology set for electronic device manufacturing. These demands can be achieved by designing of technology equipment that can support such concept at technology level as well as on hardware and software levels.
One of the promising technology is the Electrodynamic coating that can perfume nanomaterials deposition to create structures for printed 3D electronics devices.

Keywords

References

  1. Conductive nanomaterials for Printed Electronics. Alexander Kamyshny, Shlomo Magdassi. 17, s.l.:Wiley, 2014
  2. Electrospinnong: A study in the formation of nanofibers. Vonch, J., Yarin, A. and Magaridis, C. M., 1, Chicago^ Journal of undergraduate research, 2007, Vol 1.
  3. Electrospinning jets and polymer nanofibers. Reneker, Darrell H. and Yarinb, Alexander L. 10s.l.: Elsevier, 2008, vol.49
  4. Coaxial electrospun nanostructures and their applications. Qu Honglin, Wei, Suying and Guo, Zhanhu. Beaumont: RSC Publishing, 2013, Vol. 1.
  5. Effects of Working Parameters on Electrospinning. [book auth.] Z. Li. And C. Wang. One-Dimensional Nanostructures. s.l.: The Author(s), 2013.
  6. Yang, Quigbiao, et al. Influence of solvents on the formation of ultrathin uniform poly(vinyl pyrrolidone) nanofibers with electrospinning. Polymer physics s.l.: Wiley, 2004.
  7. Understanding the effect of electrospinning distance on the morphology of PAN nanofibers. Basu, Sandip, Jassal, Manjeet and Agrawal, Ashwini. New Delhi^ Taylor & Francis, 2013, Vol. 104.2.
  8. Ko, Sueng Hwang and Grigoropolous, Costas. Hierarchical Nanostructures for Energy Devices. Cambridge: The royal society of chemistry, 2015. 978-1-84973-628-2.
  9. Emerging Transparent Electrodes Based on Thin Films of Carbon Nanotubes, Graphene, and Metallic Nanostructures. Hecht, David S., Hu, Liangbing and Irvin, Glen. 23, Wienheim: Wiley-VHC, 2011, Vol. 2011.
  10. Xia, Y., et al. One-Dimensional Nanostructures: Synthesis, Characterization, and applications. Advanced materials. s.l.: Wiley and Sons, 2014.
  11. Dasgupta, Neil P., et al. 25th Anniversary Article: Semiconductor Nanowires – Synthesis, Characterization, and Applications. Advanced materials. s.l. : Wiley and Sons, 2014
  12. Wang, Zhong Ling. Nanowires and nanobelts Materials, properties and devices. New York : Springer, 2003. 978-0-387- 28745-4.
  13. Electrospun metallic nanowires: Synthethis, Characterization and Applications. Khalil, Abdullah, et al. Abu Dhabi: AIP Publishing, 2013
  14. Inorganic molecular wires: Physical and functional properties of trqansition metal chalco-halide polymers. Mihailovic, Dragan. Ljubljana: Elsevier, 2008.
  15. Computational design of co-assembling protein-DNA nanowires. Moy, Yun, et al. Pasadana : Macmillan Publishers Limited, 2015.
  16. Atomic and electronic structure of Mo659-xlx nanowires. Meden, A, et al. Ljubljana: IOP Publishing, 2005.
  17. Miao, J. and Liu, B. II – VI semiconductor nanowires: ZnO. [book auth.] J Arbiol and Q. Xiong. Semiconductor Nanowires. s.l.: Elsevier, 2015
  18. Semiconductor nanowire array: potential substrates for photocatalysis and photovoltaics. Wu, Yiying, Yan, Haoquan and Yang, Peidong. Berkeley: Plenum publishing cooperation, 2002.
  19. Dogan, P., Cheeze, C. and Calarco, R. III – V semiconductor nanowires: nitrides (N – based; III- N). [book auth.] J. Arbiol and Q. Xiong. Semiconductor Nanowires. s.l.: Elsevier, 2015.
  20. Polyol Synthesis of Silver Nanowires: An Extensive Parametric Study. Coskun, Sahin, Sksoy, Burcu and Unalan, Husnu Emrah. Ankara: American Chemical Society, 2011. 10.1021/cg200874g
  21. Shape-controlled Synthesis of metal Nanostructures: The Case of Silver. Wiley, Benjamin, et al. Weinheim: Wiley-VCH, 2005 10.1002/chem.200400927
  22. Silver Nanowire Transparent Electrodes: Fabrication, Characterization and Device Integration, Waterloo: Khaligh, Hadi Hosseinzadeh. s.n., 2013
  23. Fluorescence Mapping of PCP Light-Harvesting Complexes Coupled to Sliver Nanowires. Krajnika, B., et al. 122, Torun: ACTA PHYSICA POLONICA A, 2011, Vol. 2.
  24. Fabrication of silver nanowire transparent electrodes using electrohydrodynamic spray deposition for flexible organic solar cells. Park, Sung-Eun, et al. Seoul: RSC publishing, 2013
  25. Silver nanowire-basedtransparent, flexible and conductive this film. Liu, Cai-Hong and Yu, Xun. Duluth: Springer, 2011.
  26. Silver Nanowires Transparent Conductive films: Fabrication Using Different Sintering Techniques. Jinting Jiu, Tohru Sugahara, MasayaNogi, Shijo Nagao and Katsuaki Suganuma. Beijing: IEEE, 2013.
  27. Metal nanogrids, nanowires and. Hu, Liangbing, Wu, Hui and Cui, Yi. s.l.: MRS Bulletin, 2011, Vol. 36.
  28. Mastropietro, Mike. Overview of Transparent Metal Mesh Electrode Technologies. [Power Point] San Francisco: NovaCentrix, 2015.
  29. Direct electrospinning of Ag/polyvinylpyrrolidone nanocables. Song, Jie, et al. Aarhus: The Royal Society of Chemistry, 2011
  30. Synthesis and fabrication of silver nanowires embedded in PVP fibers by near-field electrospinning process. Yang, T.L., et al. Kaohsiung: Elsevier, 2014
  31. Electrospinning of Polylactic Acid/Silver Nanowire Biocomposites: Antibacterial and Electrical Resistivity Studies. Satoungar, Mohammed Taghi, et al. Yazd: Wiley Online Library, 2016.
  32. Jie Bai; Yaoxian Li; Meiye Li; Shugang Wang; Chaoqun Zhang; Qingbiao Yang. Nanofiber, Electrospinning method for the preparation of silver chloride nanoparticles in PVP. Changchun: Elsevier, 2008
  33. Preparation of silver nanoparticles dispersed in polyacrylonitrile nanofiber film spun by electrospinning. Wang, Yongzhi, et al. Changchun: Elsevier, 2005.
  34. Electrospun chitosan/gelatin nanofibers containing silver nanoparticles. Zhuanga, Xupin, et al. Tianjin: Elsevier, 2010.
  35. Joo, Jaebum, et al. Method of manufacturing a patterned transparent conductor. US9295153 B2 United State of America, 22 03 2016. Granted.
  36. Controled deposition of electrospun poly(ethylene oxide) fibers. Dietzel, J.M., et al. s.l.: Elsevier, 2001.
  37. Teo, Wee-Eong. Electrospinning Starter Guide. ElectrospinTech. [Online] ElectrospinTech, 2016. [Cited: 08 03 2017.] http://electrospintech.com/espinstarter.html.
  38. Electrospinning and Porosity Measurements of Nylon6/Poly(ethylene oxide) Blended Nanwovens. Frey, Margaret W. and Li, Lei. 1, Ithaca: Journal of Engineered Fibers and Fabrics, 2007, Vol. 2.
  39. The effect of processing variables on the morphology of electrospun nanofibers and textiles. Deitzel, J.M., et al. s.l.: Elsrvier, 2000.
  40. Continues near-field electrospinning for large area deposition of orderly nanofiber patterns. Chang, Chein, Limkrailassiri, Kevin and Lin, Liwei. Berkeley: AIP, 2008.

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