Electrical properties of the CdTe back contact: A new chemically etching process based on nitric acid/acetic acid mixtures

Schumacher and Halbsguth first demonstrated ectodesmata as pores or channels in the epidermal cell walls in haustoria of Cuscuta odorata L. by light microscopy in tissues fixed in a sublimate fixative (30% ethyl alcohol, 30 ml:glacial acetic acid, 10 ml: 65% nitric acid, 1 ml: 40% formaldehyde, 5 ml: oxalic acid, 2 g: mecuric chloride to saturation 2-3 g). Other workers have published electron micrographs of structures transversing the outer epidermal cell in thin sections of plant leaves that have been interpreted as ectodesmata. Such structures are evident following treatment with Hg++ or Ag+ salts and are only rarely observed by electron microscopy. If ectodesmata exist without such treatment, and are not artefacts, they would afford natural pathways of entry for applied foliar solutions and plant viruses.

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Synthesis and properties of 1,3-bis(4-nitrophenyl)-1-butene

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19802120 ◽

1980 ◽

Vol 45 (7) ◽

pp. 2120-2124 ◽

Cited By ~ 1

Author(s):

Gabriel Čík ◽

Anton Blažej ◽

Kamil Antoš ◽

Igor Hrušovský

Keyword(s):

Acetic Acid ◽

Nitric Acid ◽

Double Bond ◽

Fuming Nitric Acid

1,3-Bis(4-nitrophenyl)-1-butene was prepared by nitration of 1,3-diphenyl-1-butene (I) with fuming nitric acid in acetic acid. The double bond in I was protected by addition of bromine which was eliminated after the nitration. The UV, IR and 1H- spectra of the synthesized compounds are interpreted.

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Nitration of Jharia basin coals, India: a study of structural modifications by XRD and FTIR techniques

International Journal of Coal Science & Technology ◽

10.1007/s40789-021-00422-8 ◽

2021 ◽

Author(s):

Prabal Boral ◽

Atul K. Varma ◽

Sudip Maity

Keyword(s):

Acetic Acid ◽

Nitric Acid ◽

Linear Relationship ◽

Glacial Acetic Acid ◽

Vitrinite Reflectance ◽

Aqueous Media ◽

Interlayer Spacing ◽

Acetic Acid Medium ◽

X Ray ◽

The Media

AbstractFour coal samples from Jharia basin, India are treated with nitric acid in glacial acetic acid and aqueous media to find out the chemical, petrographic and spatial structure of the organic mass by X-ray diffraction (XRD) and Fourier Transform Infrared Spectroscopy (FTIR) techniques. X-ray parameters of coal like interlayer spacing (d002), crystallite size (Lc), aroamticity (fa), average number of aromatic layers (Nc), and coal rank (I26/I20) have been determined using profile-fitting software. Considerable variation is observed in treated coals in comparison to the demineralized coals. The d002 values of treated coals have increased in both the media showing increase in disordering of organic moieties. A linear relationship has been observed between d002 values with the volatile matter of the coals. Similarly, the d002 values show linear relationship with Cdmf contents for demineralized as well as for the treated coals in both the media. The Lc and Nc values have decreased in treated coals corresponding to demineralized coals. The present study shows that nitration in both the media is capable of removing the aliphatic side chains from the coals and aromaticity (fa) increases with increase in rank and shows a linear relationship with the vitrinite reflectance. The corresponding I26/I20 values are least for treated coals in glacial acetic acid medium followed by raw and then to treated coals in aqueous medium. FTIR studies show that coal arenes of the raw coals are converted into nitro-arenes in structurally modified coals (SMCs) in both the media, the corresponding bands at 1550–1490 and 1355–1315 cm−1 respectively. FTIR study confirms that nitration is the predominant phenomenon, though, oxidation and nitration phenomena takes place simultaneously during treatment with nitric acid to form SMCs. In comparison to raw coals, the SMCs show higher aromaticity and may be easily converted to coal derived products like activated carbon and specialty carbon materials.

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Fabrication of (ZnO)x: (Cu)1-x/PSi Solar Cell Using Laser Induced Plasma Technique

Journal of Physics Conference Series ◽

10.1088/1742-6596/2114/1/012028 ◽

2021 ◽

Vol 2114 (1) ◽

pp. 012028

Author(s):

G. H. Jihad ◽

K.A. Aadim

Keyword(s):

Solar Cell ◽

Electrical Properties ◽

Current Density ◽

Electrochemical Etching ◽

Average Diameter ◽

Etching Process ◽

Morphological Properties ◽

Etching Time ◽

Solar Cell Performance ◽

Cell Efficiency

Abstract Fabrication of PSi is generated successfully depending upon photo-electrochemical etching process. The purpose is to differentiate the characterization of the PSi monolayer based on c-silicon solar cell compared to the bulk silicon alone. The surface of ordinary p-n solar cell has been reconstructed on the n-type region of (100) orientation with resistivity (3.2.cm) in hydrofluoric (HF) acid at a concentration of 2 ml was used to in order to enhance the conversion efficiency with 10-minute etching time and current density of 50 mA/cm2, The morphological properties (AFM) as well as the electrical properties have been investigated (J-V). The atomic force microscopy investigation reveals a rugged silicon surface with porous structure nucleating during the etching process (etching time), resulting in an expansion in depth and an average diameter of (40.1 nm). As a result, the surface roughness increases. The electrical properties of prepared PS, namely current density-voltage characteristics in the dark, reveal that porous silicon has a sponge-like structure and that the pore diameter increases with increasing etching current density and the number of shots increasing this led that the solar cell efficiency was in the range of (1-2%), resulting in improved solar cell performance.

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Investigations of the pore formation in the lead selenide films using glacial acetic acid- and nitric acid-based electrolyte

Nanoscale Research Letters ◽

10.1186/1556-276x-7-338 ◽

2012 ◽

Vol 7 (1) ◽

Cited By ~ 2

Author(s):

Sergey P Zimin ◽

Egor S Gorlachev ◽

Viktor V Naumov ◽

Fedor O Skok

Keyword(s):

Acetic Acid ◽

Nitric Acid ◽

Pore Formation ◽

Glacial Acetic Acid ◽

Lead Selenide

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Effect of hydrogen ion changes on vascular resistance in isolated artery segments

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1964.207.1.169 ◽

1964 ◽

Vol 207 (1) ◽

pp. 169-172 ◽

Cited By ~ 12

Author(s):

Oliver Carrier ◽

Meredith Cowsert ◽

John Hancock ◽

Arthur C. Guyton

Keyword(s):

Acetic Acid ◽

Lactic Acid ◽

Sulfuric Acid ◽

Nitric Acid ◽

Perfusion Pressure ◽

Control Level ◽

Linear Increase ◽

Hydrogen Ion ◽

Isolated Artery ◽

Ph Range

Isolated arterial segments, 1 cm in length and 0.5–1.0 mm in diameter, were perfused with Tyrode's solution titrated to various levels of pH. Po2, Pco2, and temperature were held at physiological levels; the perfusion pressure was held at 100 mm Hg, and flow was measured by a drop counter. There was a linear increase in flow as the pH was decreased from 7.4, 0.05 units at a time, with an increase of 87% obtained at pH 7.15. As the pH was further decreased, the flow dropped until at pH 6.8 it leveled off slightly above control level. When the pH was raised, there was an initial 35% decrease in flow by the time pH 7.50 was reached, followed by an increase, reaching 50% above control level at 7.65. At still higher pHs a precipitous decrease in conductance occurred, flow leveling off slightly below control level at pH 7.80. Consistent results were obtained on 45 vessels using Tyrode's solution titrated to the desired pH with lactic acid, hydrochloric acid, acetic acid, sulfuric acid, nitric acid, sodium hydroxides, or sodium bicarbonate. These results indicate that vessels have a very narrow pH range in which they maintain physiological tone.

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Thin Layer Densitometric Determination of Rotenone and Deguelin

Journal of AOAC INTERNATIONAL ◽

10.1093/jaoac/52.1.182 ◽

1969 ◽

Vol 52 (1) ◽

pp. 182-187

Author(s):

Norman E Delfel ◽

William H Tallent

Keyword(s):

Acetic Acid ◽

Standard Deviation ◽

Nitric Acid ◽

Thin Layer ◽

Solvent System ◽

Ammonia Vapor ◽

Acid Vapor ◽

Tephrosia Vogelii ◽

Infrared Methods

Abstract Rutenone and deguelin are separated by chromatography on silver nitrate-impregnated silica gel G with chloroform acetone: acetic acid (196:3:1) solvent system. Glass plates, 20 × 20 cm, are coated with a special spreader producing a 0.25 mm layer and a 1.00 mm band at the upper end. Since additional solvent is required to saturate the thicker band, such plates give resolutions comparable to plates twice as long. Developed plates are treated with nitric acid vapor, then ammonia vapor, to produce dark spots for the rotenoids. Plates are scanned with a commercial densitometer, and the quantity of rotenoids is calculated from peak area in the resultant curve. Kecoveries of rotenone and deguelin added to extracts of Tephrosia vogelii, Lonchocarpus nicou, and Derris elliptica averaged 104.1 and 99.4%, respectively. The standard deviation of the method applied to plant extracts was 7.9% for rotenone and 8.3% for deguelin. The amounts of rotenone in the L. nicou samples were comparable to those determined by the AOAC crystallization and infrared methods.

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Adducts of tetraphenylstibium nitrate with nitric acid and of tetraphenylstibium acetate with acetic acid: Syntheses and structures

Russian Journal of Inorganic Chemistry ◽

10.1134/s0036023608070206 ◽

2008 ◽

Vol 53 (7) ◽

pp. 1110-1114 ◽

Cited By ~ 5

Author(s):

V. V. Sharutin ◽

V. S. Senchurin ◽

O. K. Sharutina ◽

L. P. Panova

Keyword(s):

Acetic Acid ◽

Nitric Acid

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STUDIES ON RDX AND RELATED COMPOUNDS: II. THE NITROLYSIS OF HEXAMINE IN ACETIC ACID

Canadian Journal of Research ◽

10.1139/cjr50b-086 ◽

1950 ◽

Vol 28b (11) ◽

pp. 715-719 ◽

Cited By ~ 1

Author(s):

C. A. Winkler ◽

M. Kirsch

Keyword(s):

Acetic Acid ◽

Nitric Acid ◽

Deleterious Effect ◽

Reaction Rate ◽

Harmful Effect ◽

Maximum Yield ◽

Related Compounds

Acetic acid has a harmful effect on the reaction rate and on the yield of RDX at 1 °C. and at 30 °C. for a given nitric acid – hexamine ratio below a certain optimum value. At the optimum, however, the maximum yield of 80% is obtained at both temperatures. The deleterious effect of acetic acid may be explained by assuming that the concentration of the active nitrolyzing agent (nitracidium ion) is decreased by reaction between acetic acid and nitric acid.

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