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Year 2020, Volume: 4 Issue: 1, 29 - 34, 11.06.2020

Abstract

References

  • Reference1 Gateley, D. E., “A policy of vulnerability or agency? Refugee young people’s opportunities in accessing further and higher education in the UK”, Compare: Journal of Comparative and International Education, Volume 45, Issue 1, 26–46, 2015. Reference2 Joan G. De Jaeghere, Jasmina Josić Kate S. McCleary, “Education and Youth Agency Qualitative Case Studies in Global Contexts”, Springer International Publishing Switzerland, 2016.Reference3 Petrie, Pat; Boddy, Janet; Cameron, Claire; Heptinstall, Ellen; McQuail, Susan; Simon, Antonia; Wigfall, Valerie, “Pedagogy - a holistic, personal approach to work with children and young people, across services: European models for practice, training, education and qualification”, p. 4, 2009.Reference4 The Dictionary of Human Geography, 5th Ed., p. 127, 2009.Reference5 Chris Barker, "The Sage Dictionary of Cultural studies", 2004.Reference6 Yolanda, "Introduction to Anthropology, Embodied Cultural Capital", chapter 15, lesson 34, Study.com ,2003-2018.Reference7 Kasser, T., & Ryan, R., “Further examining the American dream: Differential correlates of intrinsic and extrinsic goals”, Personality and Social Psychology Bulletin, Vol. 3, issue: 22, PP. 280–287, 1996.Reference8 Defense Technical Information Center (DTIC), “Joint Publication 2-0, Joint Intelligence”, Department of Defense, pp. GL–11, 2013. Reference9 Morten Kamp's, “Top-Down or Bottom-Up Analytics?”, All About Human Capital" blog, 2013.Reference10 Akash Mitra, “Classifying data for successful modeling”, 2011. Reference11 Merriam-Webster, "Information Definition of Information by Merriam-Webster", 2017.Reference12 Shulman, Lee (1987). “Knowledge and Teaching: Foundations of the New Reform”, Harvard Educational Review, Vol. 15, Issue: 2, p: 4–14, 2017.

Feasibility of Micro-Nanotechnology in Biomedical Applications

Year 2020, Volume: 4 Issue: 1, 29 - 34, 11.06.2020

Abstract

Biomedical devices are
multidisciplinary field that have the potential to provide patient with
artificial tiny devices and bring them back to their regular life. Organs of
the human body are varying in size, structure and function, from neurons in the
human brain, which contains around 100 billion neurons,  to nephron in renal system, which in healthy
adult has 0.8 to 1.5 million nephrons in each kidney. High-scale of technology as
the core of every single device will have a deep impact on fabrication such
tiny devices. Therefore, such technology should always be developing and upgrading
to meet human needs that is including but not limited to medicine, drugs, food,
and sports, etc. Micro/Nanotechnology is capable to perform what no one has
ever imagined or even thought possible. Miniaturizing devices using MEMS
technology has become essential and strongly required to build such failure
organ in human body. Accordingly, a new generation will come to light with new
capabilities, new products and new markets. This cannot be done without
implementing and adapting higher technology system that will lead to this
quality of life. 

References

  • Reference1 Gateley, D. E., “A policy of vulnerability or agency? Refugee young people’s opportunities in accessing further and higher education in the UK”, Compare: Journal of Comparative and International Education, Volume 45, Issue 1, 26–46, 2015. Reference2 Joan G. De Jaeghere, Jasmina Josić Kate S. McCleary, “Education and Youth Agency Qualitative Case Studies in Global Contexts”, Springer International Publishing Switzerland, 2016.Reference3 Petrie, Pat; Boddy, Janet; Cameron, Claire; Heptinstall, Ellen; McQuail, Susan; Simon, Antonia; Wigfall, Valerie, “Pedagogy - a holistic, personal approach to work with children and young people, across services: European models for practice, training, education and qualification”, p. 4, 2009.Reference4 The Dictionary of Human Geography, 5th Ed., p. 127, 2009.Reference5 Chris Barker, "The Sage Dictionary of Cultural studies", 2004.Reference6 Yolanda, "Introduction to Anthropology, Embodied Cultural Capital", chapter 15, lesson 34, Study.com ,2003-2018.Reference7 Kasser, T., & Ryan, R., “Further examining the American dream: Differential correlates of intrinsic and extrinsic goals”, Personality and Social Psychology Bulletin, Vol. 3, issue: 22, PP. 280–287, 1996.Reference8 Defense Technical Information Center (DTIC), “Joint Publication 2-0, Joint Intelligence”, Department of Defense, pp. GL–11, 2013. Reference9 Morten Kamp's, “Top-Down or Bottom-Up Analytics?”, All About Human Capital" blog, 2013.Reference10 Akash Mitra, “Classifying data for successful modeling”, 2011. Reference11 Merriam-Webster, "Information Definition of Information by Merriam-Webster", 2017.Reference12 Shulman, Lee (1987). “Knowledge and Teaching: Foundations of the New Reform”, Harvard Educational Review, Vol. 15, Issue: 2, p: 4–14, 2017.
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Details

Primary Language English
Journal Section Research Articles
Authors

Abdullah M İ Tashtoush

Publication Date June 11, 2020
Published in Issue Year 2020 Volume: 4 Issue: 1

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APA Tashtoush, A. M. İ. (2020). Feasibility of Micro-Nanotechnology in Biomedical Applications. Acta Materialia Turcica, 4(1), 29-34.
AMA Tashtoush AMİ. Feasibility of Micro-Nanotechnology in Biomedical Applications. ACTAMAT. June 2020;4(1):29-34.
Chicago Tashtoush, Abdullah M İ. “Feasibility of Micro-Nanotechnology in Biomedical Applications”. Acta Materialia Turcica 4, no. 1 (June 2020): 29-34.
EndNote Tashtoush AMİ (June 1, 2020) Feasibility of Micro-Nanotechnology in Biomedical Applications. Acta Materialia Turcica 4 1 29–34.
IEEE A. M. İ. Tashtoush, “Feasibility of Micro-Nanotechnology in Biomedical Applications”, ACTAMAT, vol. 4, no. 1, pp. 29–34, 2020.
ISNAD Tashtoush, Abdullah M İ. “Feasibility of Micro-Nanotechnology in Biomedical Applications”. Acta Materialia Turcica 4/1 (June 2020), 29-34.
JAMA Tashtoush AMİ. Feasibility of Micro-Nanotechnology in Biomedical Applications. ACTAMAT. 2020;4:29–34.
MLA Tashtoush, Abdullah M İ. “Feasibility of Micro-Nanotechnology in Biomedical Applications”. Acta Materialia Turcica, vol. 4, no. 1, 2020, pp. 29-34.
Vancouver Tashtoush AMİ. Feasibility of Micro-Nanotechnology in Biomedical Applications. ACTAMAT. 2020;4(1):29-34.