UV irradiation as a comparable method to thermal treatment for producing high quality stabilized milk whey

Waste concrete must be crushed, screened, and ground in order to produce high-quality recycled aggregate. In this treatment process, 15–30% waste concrete powder (<0.125 mm) can be generated. Hydration activity and the reuse of waste concrete powders (WCPs) were studied in this work, and the results illustrated that the particle size changed after a series of thermal treatments at temperatures from 400 ℃ to 800 ℃. The particle size of waste concrete powder decreased by 700 ℃ thermal treatment, and by 600 ℃ thermal treatment, it increased. More active elements appeared in WCP heated by 800 ℃. Nevertheless, the activity index (AI) of WCP, measured by the ratio of mechanical strengths between mortar with a 30% replacement of the cement with WCP and normal mortar without WCP, indicated that the WCP by 700 ℃ thermal treatment had an optimal AI value, which meant WCP treated at 700 ℃ could be used in mortar or concrete as an admixture.

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Formation of stable Si–O–C submonolayers on hydrogen-terminated silicon(111) under low-temperature conditions

Beilstein Journal of Nanotechnology ◽

10.3762/bjnano.6.3 ◽

2015 ◽

Vol 6 ◽

pp. 19-26 ◽

Cited By ~ 35

Author(s):

Yit Lung Khung ◽

Siti Hawa Ngalim ◽

Andrea Scaccabarozzi ◽

Dario Narducci

Keyword(s):

Thermal Treatment ◽

Kinetic Model ◽

Uv Irradiation ◽

Photoelectron Spectroscopy ◽

Hydrogen Abstraction ◽

Thermal Conditions ◽

Terminal Group ◽

Alcohol Solution ◽

Bifunctional Molecules ◽

Photochemical Route

In this letter, we report results of a hydrosilylation carried out on bifunctional molecules by using two different approaches, namely through thermal treatment and photochemical treatment through UV irradiation. Previously, our group also demonstrated that in a mixed alkyne/alcohol solution, surface coupling is biased towards the formation of Si–O–C linkages instead of Si–C linkages, thus indirectly supporting the kinetic model of hydrogen abstraction from the Si–H surface (Khung, Y. L. et al. Chem. – Eur. J. 2014, 20, 15151–15158). To further examine the probability of this kinetic model we compare the results from reactions with bifunctional alkynes carried out under thermal treatment (<130 °C) and under UV irradiation, respectively. X-ray photoelectron spectroscopy and contact angle measurements showed that under thermal conditions, the Si–H surface predominately reacts to form Si–O–C bonds from ethynylbenzyl alcohol solution while the UV photochemical route ensures that the alcohol-based alkyne may also form Si–C bonds, thus producing a monolayer of mixed linkages. The results suggested the importance of surface radicals as well as the type of terminal group as being essential towards directing the nature of surface linkage.

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Physical and electrical characterization of TiO2 particles after high temperature processing and before and after ultraviolet irradiation

Canadian Journal of Physics ◽

10.1139/cjp-2013-0603 ◽

2014 ◽

Vol 92 (7/8) ◽

pp. 832-837

Author(s):

J. Molina ◽

C. Zúñiga ◽

M. Moreno ◽

W. Calleja ◽

P. Rosales ◽

...

Keyword(s):

High Temperature ◽

Thermal Treatment ◽

Uv Irradiation ◽

Silicon Oxide ◽

Crystalline Silicon ◽

Electrical Characterization ◽

Metal Electrode ◽

Rutile Phase ◽

Before And After ◽

Diffraction Patterns

In this work, rutile-phase TiO2 particles (r-TiO2, about 360 nm in size) are embedded within a silicon oxide matrix using different concentration ratios of r-TiO2 with respect to SiO2:H2O, so that suspensions of mixed TiO2:SiO2 oxides were obtained and analyzed. These TiO2:SiO2 suspensions were deposited on previously-cleaned crystalline silicon and quartz substrates so that thin films of TiO2:SiO2 were obtained. All films were then exposed to relatively high-temperature thermal treatments in nitrogen and different characterization techniques were used to determine their physical and electrical properties before and after ultraviolet (UV) irradiation. Before high thermal treatment, X-ray diffraction patterns show that the main diffraction peaks for the obtained TiO2:SiO2 films correspond to the crystalline phase of rutile-TiO2. Infrared analyses before and after thermal treatment show significant changes in the chemical bonding of the final films relative to the temperatures used during annealing. Also, UV–visible spectra provide a constant optical band gap for the films, independent of different TiO2 concentrations as expected. On the other hand, atomic-force microscopy measurements before and after UV irradiation show an appreciable difference in the grain size and surface morphology of the resulting TiO2:SiO2 oxides annealed at 1000 °C. Finally, photoelectrical I–V properties were obtained for all TiO2:SiO2 films by depositing ultrathin titanium stripes on top of the photoactive material and then, measuring the total current flowing through the metal electrode before and after UV irradiation. From these last measurements, a detectable increase in the I–V slope (lower resistance of the titanium stripe) is found for all samples during UV exposure, thus making this device to act as a simple photoresistor based on r-TiO2 particles.

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High-quality graphene synthesis on amorphous SiC through a rapid thermal treatment

Carbon ◽

10.1016/j.carbon.2017.06.002 ◽

2017 ◽

Vol 124 ◽

pp. 105-110 ◽

Cited By ~ 5

Author(s):

Dong Han ◽

Xu Wang ◽

Yunbiao Zhao ◽

Yi Chen ◽

Meixiong Tang ◽

...

Keyword(s):

Thermal Treatment ◽

High Quality ◽

Graphene Synthesis ◽

Amorphous Sic

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Stability Investigation of CuInS2 based heavy-metal free nanocrystals

MRS Proceedings ◽

10.1557/opl.2011.420 ◽

2011 ◽

Vol 1316 ◽

Cited By ~ 1

Author(s):

Chuang Xie ◽

Yu Zhang ◽

Andrew Y. Wang ◽

William W. Yu ◽

Jingkang Wang ◽

...

Keyword(s):

Heavy Metal ◽

Uv Irradiation ◽

Half Life ◽

Ambient Condition ◽

Core Shell ◽

High Quality ◽

Metal Free ◽

Stability Investigation ◽

Biomedical Fields

ABSTRACTIn the present work the photostability of high-quality CuInS2 based nanocrystals (Zn-Cu-In-S/ZnSe/ZnS and CuInS2/ZnS core/shell nanocrystals) of different sizes and concentrations were investigated at ambient condition both under UV irradiation and in the darkness. The photostability of commercial CdSe/ZnS core/shell nanocrystals were used as reference to compare to that of CuInS2 based nanocrystals. The half-life times of the CuInS2 base nanocrystals are 2-8 times that of the reference which indicates the CuInS2 base NCs we obtained in the present work are very stable, reliable and competent for the application in biomedical fields.

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High quality reduced graphene oxide flakes by fast kinetically controlled and clean indirect UV-induced radical reduction

Nanoscale ◽

10.1039/c6nr00156d ◽

2016 ◽

Vol 8 (14) ◽

pp. 7572-7579 ◽

Cited By ~ 15

Author(s):

Roman Flyunt ◽

Wolfgang Knolle ◽

Axel Kahnt ◽

Christian E. Halbig ◽

Andriy Lotnyk ◽

...

Keyword(s):

Graphene Oxide ◽

Reduced Graphene Oxide ◽

Uv Irradiation ◽

High Quality ◽

Aqueous Dispersions ◽

Highly Efficient ◽

Kinetically Controlled ◽

Reduced Graphene ◽

Radical Reduction

A highly efficient and clean method for the production of reduced graphene oxide via UV irradiation of aqueous dispersions of graphene oxide (GO) containing small quantities of acetone and isopropanol is developed.

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A Novel Range of Noble Metal Organometallic Fluorides for use in the Fabrication of Submicron Metal Features by E-Beam or UV Irradiation

MRS Proceedings ◽

10.1557/proc-546-225 ◽

1998 ◽

Vol 546 ◽

Author(s):

J. Thomson ◽

A. H. Fzea ◽

J. Lobban ◽

P. McGivern ◽

J. A. Cairns ◽

...

Keyword(s):

Electron Beam ◽

Noble Metal ◽

Uv Irradiation ◽

Vapour Deposition ◽

Physical Vapour Deposition ◽

High Quality ◽

Temperature Range ◽

Quality Metal

SummaryThe preparation a nd characterisationo f a novel organoplatinum fluoride is described. The physical vapour deposition (PVD) of the material was performed in the temperature range 160–170°C, and electron beam bombardment or uv irradiation, results in the degradation of the compound to give high quality metal features down to dimensions of ca 60 nm.

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