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Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. February 2015, 6(1): 011008.
Paper No: NANO-15-1070
Published Online: December 14, 2015
... power up to 7 kW with the energy density flux of 13 kW/cm 2 . Radiation was focused on the layer of powder of the treated material to ensure its evaporation, subsequent condensation of vapor in the gas stream, and deposition of particles on the water-cooled surface. Deposited powders consist of...
Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. February 2015, 6(1): 011007.
Paper No: NANO-15-1049
Published Online: November 6, 2015
... because of repulsive electrostatic force on marginating NPs. The trend is also opposite to the behavior found in another study of the adhesion of labeled particles onto endothelial cells in whole blood flow. The comparison shows that the reduced zeta potential of NPs in a serum-containing cell medium and...
Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. February 2015, 6(1): 011002.
Paper No: NANO-15-1024
Published Online: July 23, 2015
... mins, and 40 mins 1 Corresponding author. Manuscript received April 3, 2015; final manuscript received June 17, 2015; published online July 23, 2015. Assoc. Editor: Roger Narayan. 03 04 2015 17 06 2015 Crystal Fabrication Materials Nanotechnolgy Particles...
Journal Articles
Article Type: Review Articles
J. Nanotechnol. Eng. Med. February 2015, 6(1): 010801.
Paper No: NANO-14-1069
Published Online: February 1, 2015
... nanotechnology is that as particles get smaller, their surface area to volume ratio increases dramatically. Imagine a cube of sugar, reacting with water as the water dissolves the outside of the sugar. Now imagine the same cube of nanoparticles also exhibits certain quantum yield that may be used for detection...
Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. November 2014, 5(4): 041002.
Paper No: NANO-14-1052
Published Online: November 1, 2014
... where “ d ” is the lattice distance, “ a ” is lattice parameter, and “ h ,” “ k ,” and “ l ” are plane indexes. The surface morphology and the particle size for Mn 0.91 Zn 0.09 Fe 2 O 4 MNPs, m-PEG-coated Mn 0.91 Zn 0.09 Fe 2 O 4 MNPs and MnFe 2 O 4 MNPs and were examined by a transmission...
Journal Articles
Article Type: Technical Briefs
J. Nanotechnol. Eng. Med. November 2014, 5(4): 044501.
Paper No: NANO-14-1044
Published Online: November 1, 2014
... similar to that provided in Ref. [ 21 ], a MC model was developed to evaluate the percolation behavior of a system of CNT particles dispersed in 3D space. Three random numbers ( x i , y i , z i ) were generated in the interval (0, L ), indicating the coordinate of one end of a rod-shaped CNT. The...
Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. May 2014, 5(2): 021007.
Paper No: NANO-14-1037
Published Online: September 4, 2014
... manufactured and provided by the Chemistry Department of the Auburn University [ 19 ]. Mixing the bare nanoparticles in the base fluid does not create a stable colloidal suspension. The particles coagulate together and quickly precipitate. In order to disperse the nanoparticles evenly in the base fluid and...
Journal Articles
Article Type: Review Articles
J. Nanotechnol. Eng. Med. May 2014, 5(2): 020801.
Paper No: NANO-14-1030
Published Online: August 19, 2014
...Jingjie Zhang; Daren Chen Note that the effort has also been spent on the development of DMAs classifying large particles. To classify large particles, a long particle residence time in the DMA classification region is needed. The increase of particle residence time in a DMA can be achieved...
Journal Articles
Article Type: Research-Article
J. Nanotechnol. Eng. Med. August 2014, 5(3): 031009.
Paper No: NANO-15-1001
Published Online: August 1, 2014
...-quoted root mean square roughness of 3 nm). The laser beam was shuttered to produce 0.5 ms pulses (and hence exposure times). The fluorescence from the particles was imaged by an electron multiplying charge-coupled device camera (Hamamatsu C9100-13) through a 525 ± 25 nm bandpass emission filter...