Sustainable decoloration of polluted water through cellulosic TiO2 nano- crystalline material composite using sono synthesis

ABSTRACTThe first stages of the nano-crystallization process of amorphous Fe75.5Cu1Nb3Si12.5B8 into a nano-crystalline structure are investigated by the positron annihilation lifetime technique. Samples have been isothermally annealed at 643 K for times varying between 600 and 105 seconds. The positron lifetime spectra have been analyzed allowing for three lifetimes. The shortest and the longest lifetime, τ1 = 150 ± 2 ps and τ3 = 1500–2000 ps respectively, are attributed to annihilation of positrons in the amorphous phase and to the formation and annihilation of ortho-positronium at the surface of the stacked foils and did not change significantly upon the annealing. The intermediate positron lifetime τ2 increased from 324 ps to 387 ps. The intensity of this component increased from 5 to 15%. Comparison with resistivity measurements indicates that the change of this lifetime component occurs at an early stage in the crystallisation process, i.e. when the fraction of crystalline material is on the order of 10−3. The increase of τ2 is attributed to positrons annihilating in a region with lower average density surrounding the small crystallite.

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Accomodation mechanism of deformation in grain boundary of nano-crystalline material

The proceedings of the JSME annual meeting ◽

10.1299/jsmemecjo.2000.2.0_27 ◽

2000 ◽

Vol 2000.2 (0) ◽

pp. 27-28

Author(s):

Tomotsugu SHIMOKAWA ◽

Akihiro NAKATANI ◽

Hiroshi KITAGAWA

Keyword(s):

Grain Boundary ◽

Crystalline Material ◽

Nano Crystalline

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Temperature-dependent impedance spectroscopy of La0.8Sr0.2FeO3 nano-crystalline material

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/188/1/012027 ◽

2017 ◽

Vol 188 ◽

pp. 012027 ◽

Cited By ~ 1

Author(s):

C A Kafa ◽

D Triyono ◽

H Laysandra

Keyword(s):

Impedance Spectroscopy ◽

Crystalline Material ◽

Temperature Dependent ◽

Nano Crystalline

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Low-temperature Mo-catalyzed growth of crystalline Si3N4 by CVD

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100150423 ◽

1993 ◽

Vol 51 ◽

pp. 918-919

Author(s):

K.L. More ◽

R.A. Lowden ◽

T.M. Besmann

Keyword(s):

Vapor Deposition ◽

Hot Isostatic Pressing ◽

Chemical Vapor ◽

Processing Method ◽

Crystalline Material ◽

Structural Ceramic ◽

Alternative Processing ◽

Strong Candidate ◽

Hot Pressing Sintering ◽

Processing Techniques

Silicon nitride possesses an attractive combination of thermo-mechanical properties which makes it a strong candidate material for many structural ceramic applications. Unfortunately, many of the conventional processing techniques used to produce Si3N4, such as hot-pressing, sintering, and hot-isostatic pressing, utilize significant amounts of densification aids (Y2O3, Al2O3, MgO, etc.) which ultimately lowers the utilization temperature to well below that of pure Si3N4 and also decreases the oxidation resistance. Chemical vapor deposition (CVD) is an alternative processing method for producing pure Si3N4. However, deposits made at temperatures less than ~1200°C are usually amorphous and at slightly higher temperatures, the deposition of crystalline material requires extremely low deposition rates (~5 μm/h). Niihara and Hirai deposited crystalline α-Si3N4 at 1400°C at a deposition rate of ~730 μm/h. Hirai and Hayashi successfully lowered the CVD temperature for the growth of crystalline Si3N4 by adding TiCl4 vapor to the SiCl4, NH3, and H2 reactants. This resulted in the growth of α-Si3N4 with small amounts of TiN at temperatures as low as 1250°C.

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