Tuesday, April 26, 2022

Nanotechnology Industrial Engineering - Collected Reading

Industrial Engineering = Productivity - Efficiency - Cost Reduction

Interesting.

Published on 16.10.2012
First Updated on 26.4.2022

This blog writing gave me many opportunities to explore new areas in industrial engineering and finally offer full notes for Industrial Engineering Course and a free online handbook on IE. Thank God for the blessings. I thank all my teachers, colleagues, friends and students for supporting me for years and years.

Have you visited FREE Course Notes of Industrial Engineering ONLINE by #IndustrialEngineering Knowledge Center.
Since 19 May 2020: 2075 visits. 1854 Unique visitors. 975 entrances - direct to the page.






About Nano Technology

What is nanotechnology?
The SCENIHR opinion states:

Nanotechnology is the term given to those areas of science and engineering where phenomena that take place at dimensions in the nanometre scale are utilised in the design, characterisation, production and application of materials, structures, devices and systems. Although in the natural world there are many examples of structures that exist with nanometre dimensions (hereafter referred to as the nanoscale), including essential molecules within the human body and components of foods, and although many technologies have incidentally involved nanoscale structures for many years, it has only been in the last quarter of a century that it has been possible to actively and intentionally modify molecules and structures within this size range. It is this control at the nanometre scale that distinguishes nanotechnology from other areas of technology.
https://ec.europa.eu/health/scientific_committees/opinions_layman/en/nanotechnologies/l-3/1-introduction.htm


Nanosystems Engineering Technology


The Nanosystems Engineering Technology program is the only program of its kind in Canada. In it, you will be exposed to face-to-face, hands-on learning in our labs including in our specialized cleanroom facility.

In the program, you will learn about the fabrication and evaluation of micro- and nanomaterials and devices commonly used in a wide range of industries, such as health care, smart devices, and energy production and storage. You’ll learn how to operate systems and equipment used by nanotech researchers and manufacturing companies, such as the scanning electron microscope (SEM), which is used to obtain images of objects at the nanometre scale.
https://www.nait.ca/programs/nanotechnology-systems?term=2022-fall



Papers Presented in IIE Conferences on Nano Technology


1
Introducing Nano and Bio Manufacturing Coursework within Industrial Engineering Curriculum
Desai, Salil; Pai, Devdas; Sankar, Jag. IIE Annual Conference. Proceedings (2008): 493-498.

The paper above is based on this NSF grant
Award Abstract # 0634218
Transitioning Nanoscale Research to the Undergraduate Classroom at NC A&T State University

 INTRODUCING MICRO/NANOTECHNOLOGY EDUCATION
WITHIN THE INDUSTRIAL AND SYSTEMS ENGINEERING CURRICULUM


2
 Application of Femtosecond Laser in Micro/Nano Machining
Devarajan, Sasikumar; Chang, Zenghu; Lei, Shuting. IIE Annual Conference. Proceedings (2006): 1-6.

3
 Setting the Optimal Parameters for a Nano-Particle Milling Process
Hou, Tung-Hsu (Tony); Su, Chi-Hung; Chang, Hsu-Yang; Chan, Watson; Liu, Wan-Lin. IIE Annual Conference. Proceedings (2005): 1-6.



4
 A Hybrid Segmentation Method for Nano-particle Characterization
Ker, Jun-Ing; Liu, Xinchuan; Wu, Shi-Je; Erinjeri, Jinson J. IIE Annual Conference. Proceedings (2004): 1-5.

5
 High-bandwidth Nano-Positioning Modules for High-throughput Micro/Nano Manufacturing
Polit, Sebastian; Dong, Jingyan. IIE Annual Conference. Proceedings (2009): 1603-1608.


6
 Enhancement of Mechanical Properties in Polymer Composites Using Reinforced Nano-structured Materials
McGhee, Elaina; Desai, Salil; Chandrasekar, S; Compton, W D. IIE Annual Conference. Proceedings (2005): 1-5.



7
 Understanding Microdroplet Evaporation towards Scalable Micro/Nano Fabrication
Desai, Salil; Esho, Taye; Kaware, Ravindra. IIE Annual Conference. Proceedings (2010): 1-6.



8
 Material Characterization of Nano-Structured Al-Ni Intermetallic Composites using Residual Stresses
Rajamani, Karthik Kumar; Rivero, Iris V; Pantoya, Michelle. IIE Annual Conference. Proceedings (2005): 1-4.



9
 A Microchemical Nanofactory for the Production of Dendritic Polymers
Paul, B K; Abhinkar, B; Tseng, T; Liu, S-H; Chang, C-H; et al. IIE Annual Conference. Proceedings (2006): 1-6.

https://www.proquest.com/openview/3eca13f1061c0dd12db1a373e46c7d25/1?pq-origsite=gscholar&cbl=51908

Microchemical nanofactories  - Patent
https://patents.google.com/patent/US20050220681A1/en

http://web.mit.edu/course/10/10.569/www/Tomaliadendrhistory.pdf

10
 Grand Challenges for Industrial Engineering in the 21st Century
Askin, Ronald G. IIE Annual Conference. Proceedings (2009): 1-6.



11
 A Design-Based Nanotechnology Course for Undergraduate Industrial Engineering Students
Jaksic, Nebojsa I. IIE Annual Conference. Proceedings (2006): 1-6.

12
 Nanomanufacturing under Lean and Green Principles
Naidu, Sasikumar; Sawhney, Rapinder; Dhingra, Rajive; Knickerbocker, Cherie. IIE Annual Conference. Proceedings (2010): 1-6.



13
 Experimental Optimization of Nanomagnetic Properties
Cedeño-Mattei, Yarilyn; Perales-Pérez, Óscar; Sánchez-Peña, Matilde L; Cabrera-Ríos, Mauricio; Lara-Rodríguez, Yareni. IIE Annual Conference. Proceedings (2009): 1489-1493.

14
 Periodic Loci Surface Reconstruction in Nano Material Design
Wang, Yan. IIE Annual Conference. Proceedings (2007): 405-410.

15
 Computing Molecular Motions with Haptics for Computer-Aided Molecular Design (CAMD)
Lai-Yuen, Susana K; Lee, Yuan-Shin. IIE Annual Conference. Proceedings (2006): 1-6.


16
 Manipulation and Assembly of Micro Devices
Cecil, J; Vasquez, D; Powell, D. IIE Annual Conference. Proceedings (2004): 1-6.


17
Multi-material Micro-scale Robotic Deposition
Mukhopadhyay, Deepkishore; Bristow, Douglas A; Ferreira, Placid M. IIE Annual Conference. Proceedings (2005): 1-6.

18
 Corrosion studies on the plasma-sprayed nanostructured titanium dioxide coatings
Ahmad, Z; Ahsan, M. Anti - Corrosion Methods and Materials56. 4 (2009): 187-195.



19
 USE OF TAGUCHI METHODS TO OPTIMIZE THE DESIGN OF BIOMICROREACTORS
Alp, Neslihan; Jones, Frank; Hiestand, James; Bailey, Robert. IIE Annual Conference. Proceedings (2006): 1-5.

20
 UNDERSTANDING COST DRIVERS IN MICROLAMINATION APPROACHES TO MICROSYSTEM DEVELOPMENT
Sharma, Nitin; Porter, J David; Paul, Brian K. IIE Annual Conference. Proceedings (2003): 1-6.

21
 Cold Cathode Field Emission Properties of Nanofiber and Nanotube Buckypaper
Chen, Yi-Wen; Park, Jin-Gyu; Liang, Richard; Zhang, Chuck; Wang, Ben; et al. IIE Annual Conference. Proceedings (2009): 1616-1622.
...7-inch CNT-BLU at the CEATEC Conference [6]. The Industrial Technology



22
 Machining of Heavy Tungsten Alloy with Ceramic and Coated Carbide Tools
Abukhshim, Nuri A; Nisar, Salman; Sheikh, Mohammed A; Mativenga, Paul T. IIE Annual Conference. Proceedings (2009): 1471-1476.



25
 UVAG of Brittle Materials: DoE with a Cutting Force Model
Qin, Na; Pei, Z J; Cong, W L; Guo, D M. IIE Annual Conference. Proceedings (2010): 1-6.

26
 Bioprinting of FITC Conjugated Bovine Serum Albumin towards Stem Cell Differentiation
Desai, Salil; Richardson, Ardarion; Lee, Sang Jin. IIE Annual Conference. Proceedings (2010): 1-6.

27


29
 Manufacture of High-Strength, Thermally Stable Nanostructured Materials
Shankar, M Ravi. IIE Annual Conference. Proceedings (2007): 1393-1397.

30
 Characterization of the SilSpin Etch-Back (breakthrough) Process for Nanolithography with CHF^sub 3^ and O2 Gas Chemistry
Venkateswaran, Jayendran; Son, Young-Jun. IIE Annual Conference. Proceedings (2006): 1-6.

31
 Luminance analysis of laser post-process for buckypaper cathode via Design of Experiments methodology
Chen, YiWen; Zhang, Mei; Liang, Richard; Zhang, Chuck; Wang, Ben; et al. IIE Annual Conference. Proceedings (2009): 1609-1615.



32
 Combining QFD and Process Management Techniques in Phase-in Nanotechnology - An Empirical Study of the Semiconductor Industry
Chen, Chee-Cheng; Wu, Huei-Ching. IIE Annual Conference. Proceedings (2007): 1004-1009.

33
 Fabrication of Novel Single-chamber Solid Oxide Fuel Cells towards Green Technology
Yang, Man; Xu, Zhigang; Desai, Salil; Sankar, Jag. IIE Annual Conference. Proceedings (2009): 1435-1439.


34
 Thermal Behavior of Raw and Purified SWNT Samples: XRD Studies
Allaf, Rula; Swain, Shayla; Rivero, Iris V. IIE Annual Conference. Proceedings (2010): 1-6.


35
 Competitive and collaborative supply chains: The strategic role of product innovation, secondary markets and channel structure
Diss.Bhaskaran Nair, Sreekumar Radhadevi. The University of Texas at Austin, 2006. 3246883.


36
 Biomanufacturing of Microcapsules for Drug Delivery and Tissue Engineering Applications
Desai, Salil; Sankar, Jag; Moore, Anthony; Harrison, Benjamin. IIE Annual Conference. Proceedings (2008): 507-512.

37
 Fabricating 3-D Electronics Using Continuous Ink-Jet Printing
Mei, Junfeng; Lovell, Michael; Mickle, Marlin. IIE Annual Conference. Proceedings (2006): 1-6.

The conference proceedings can be accessed from Proquest and other electronic research paper databases.

____________________________

Optimal Seed Planting for Growth Regulated Nanomanufacturing
http://www.ee.washington.edu/research/mems/publications/2010/conferences/abassi_MEMS_2010.pdf

Productivity and Nanotech


Productive Nanotech Systems
https://www.foresight.org/roadmaps/Nanotech_Roadmap_2007_main.pdf

Related

OSRAM Boosts LED Chip Productivity With Nanotechnology
Aug 27, 2014
https://www.nanowerk.com/nanotechnology-news/newsid=37099.php


Information of Projects under progress


Large-Scale Manufacturing of Nanoparticulate-Based Lubrication Additives
Development of Boron-Based Nanolubrication Additives for Improved Energy Efficiency and Reduced Emissions
2009
http://www.es.anl.gov/energy_systems/publications/fact%20sheets/Nanomaterials%20and%20Processes/Manufacturing%20of%20Nanoparticulate-based%20Lubricants.pdf

Self-Assembled Biomimetic Nanostructured Anti-Reflection Coatings for Highly Efficient Crystalline Silicon Solar Cells
2009
http://www1.eere.energy.gov/manufacturing/industries_technologies/nanomanufacturing/pdfs/concept_nano_coatings.pdf

Cost Reduction

3 ČERVEN 2021
/
NANOMATERIALS
New Nanomaterial Dispersion Techniques Cuts Costs for Manufacturers
https://blog.nanochemigroup.cz/new-nanomaterial-dispersion-techniques-cuts-costs-for-manufacturers/

Economics of Nanotechnology

19 OCTOBER 2021

INVESTING
Is Investing in Nanotechnology Profitable?
https://blog.agchemigroup.eu/is-investing-in-nanotechnology-profitable/

Nanotechnology Market Outlook – 2030 
The global nanotechnology market size was valued at $1.76 billion in 2020, and is projected to reach $33.63 billion by 2030, registering a CAGR of 36.4% from 2021 to 2030. Nanoscience and nanotechnology involve the study of nanoparticles and devices, which find their application across all the science fields such as chemical, bio-medical, mechanics, and material science among others. Nanotechnology market encompasses the production and application of physical, chemical, and biological systems and devices at scales ranging from individual atoms or molecules to around 100 nanometers. 
https://www.alliedmarketresearch.com/nanotechnology-market


News Related to Nanotechnology - Engineering Developments, New Companies etc.

June 2021

IFFCO developed technology of nano urea liquid fertilizer for increasing crop productivity.
https://www.aninews.in/news/national/general-news/iffco-aims-at-production-of-nano-urea-liquid-fertilizer-for-crop-productivity20210721133831/

https://www.pixelligent.com/news/15-nanotechnology-companies-getting-funding-in-2018/

https://brandessenceresearch.com/blog/top-5-nanotechnology-companies-in-2022

Updated on 26.4.2022
Pub 16.10.2012

No comments:

Post a Comment