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Article Comments

Some Source Questions and Nit-Picking[edit source]
Soldier Joker Phoenix in Astoria seems to be an unreliable source.

"This name is a clear reference to the cannabis-legal city of Amsterdam in the Netherlands.[21]" Clear is a value statement and should be removed.

The 5th and 6th paragraphs under "History" have no citations, and neither does the 3rd paragraph onder "Geography and Climate".

Generally, more citations are needed.

Neither Hazel Dell or Lake Shore elementary are in the incorporated city.

Mitchell Kaiser (talk) 02:51, 8 April 2017 (UTC)

Topic Choice - Droplet Microfluidics

I will be writing about chemical synthesis using droplet microfluidics. This will include simple droplet fusion and more complex techniques. I have selected articles that address topics including polymer synthesis and nano particle creation.

Sources:

1.	Beesabathuni, S. N.; Stockham, J. G.; Kim, J. H.; Lee, H. B.; Chung, J. H.; Shen, A. Q., Fabrication of conducting polyaniline microspheres using droplet microfluidics. Rsc Advances 2013, 3 (46), 24423-24429.

2.	Boken, J.; Soni, S. K.; Kumar, D., Microfluidic Synthesis of Nanoparticles and their Biosensing Applications. Critical Reviews in Analytical Chemistry 2016, 46 (6), 538-561.

3.	Boken, J.; Soni, S. K.; Kumar, D., Microfluidic Synthesis of Nanoparticles and their Biosensing Applications. Critical Reviews in Analytical Chemistry 2016, 46 (6), 538-561.

4.	Dai, J.; Yang, X. Y.; Hamon, M.; Kong, L. Z., Particle size controlled synthesis of CdS nanoparticles on a microfluidic chip. Chemical Engineering Journal 2015, 280, 385-390.

5.	Dai, J.; Yang, X.; Hamon, M.; Kong, L., Particle size controlled synthesis of CdS nanoparticles on a microfluidic chip. Chemical Engineering Journal 2015, 280, 385-390.

6.	Deng, N. N.; Wang, W.; Ju, X. J.; Xie, R.; Chu, L. Y., Spontaneous transfer of droplets across microfluidic laminar interfaces. Lab on a Chip 2016, 16 (22), 4326-4332.

7.	Gu, T. H.; Yeap, E. W. Q.; Somasundar, A.; Chen, R.; Hatton, T. A.; Khan, S. A., Droplet microfluidics with a nanoemulsion continuous phase. Lab on a Chip 2016, 16 (14), 2694-2700.

8.	Guan, X. W.; Hou, L. K.; Ren, Y. K.; Deng, X. K.; Lang, Q.; Jia, Y. K.; Hu, Q. M.; Tao, Y.; Liu, J. W.; Jiang, H. Y., A dual-core double emulsion platform for osmolarity-controlled microreactor triggered by coalescence of encapsulated droplets. Biomicrofluidics 2016, 10 (3).

9.	Korczyk, P. M.; Dolega, M. E.; Jakiela, S.; Jankowski, P.; Makulska, S.; Garstecki, P., Scaling up the Throughput of Synthesis and Extraction in Droplet Microfluidic Reactors. Journal of Flow Chemistry 2015, 5 (2), 110-118.

10.	Korczyk, P. M.; Dolega, M. E.; Jakiela, S.; Jankowski, P.; Makulska, S.; Garstecki, P., Scaling up the Throughput of Synthesis and Extraction in Droplet Microfluidic Reactors. Journal of Flow Chemistry 2015, 5 (2), 110-118.

11.	Li, Y. H.; Jain, M.; Ma, Y. T.; Nandakumar, K., Control of the breakup process of viscous droplets by an external electric field inside a microfluidic device. Soft Matter 2015, 11 (19), 3884-3899.

12.	Mashaghi, S.; Abbaspourrad, A.; Weitz, D. A.; van Oijen, A. M., Droplet microfluidics: A tool for biology, chemistry and nanotechnology. Trac-Trends in Analytical Chemistry 2016, 82, 118-125.

13.	Mashaghi, S.; van Oijen, A. M., External control of reactions in microdroplets. Scientific Reports 2015, 5.

14.	Mashaghi, S.; Abbaspourrad, A.; Weitz, D. A.; van Oijen, A. M., Droplet microfluidics: A tool for biology, chemistry and nanotechnology. Trac-Trends in Analytical Chemistry 2016, 82, 118-125.

15.	Mashaghi, S.; van Oijen, A. M., External control of reactions in microdroplets. Scientific Reports 2015, 5.

16.	Um, T.; Hong, J.; Im, D. J.; Lee, S. J.; Kang, I. S., Electrically Controllable Microparticle Synthesis and Digital Microfluidic Manipulation by Electric-Field-Induced Droplet Dispensing into Immiscible Fluids. Scientific Reports 2016, 6.

17.	Witters, D.; Vermeir, S.; Puers, R.; Sels, B. F.; Lammertyn, J.; De Vos, D. E.; Ameloot, R., Controlled deposition of patterned metal-organic framework coatings through digital microfluidics. Abstracts of Papers of the American Chemical Society 2013, 245.

18.	Yang, C. H.; Lin, Y. S.; Shih, M. C.; Chiu, H. C.; Huang, K. S., Droplet-based Microfluidic Technology Applications in Polymer Science. Current Proteomics 2014, 11 (2), 92-97.