Investigation of sorptive interaction between phosphonate inhibitor and barium sulfate for oilfield scale control

SummaryIn this paper an inhibitor is described that is found in hemophilic plasma and serum different from any till now described inhibitor. The inhibitor only inhibits prothrombin activation in the “intrinsic clotting systems”. This inhibitor is probably not present in normal human plasma or serum. It is destroyed by ether and freeze drying, is labile to acid and storage at room temperature. It is stable upon dialysis and has not been adsorbed on barium sulfate, aluminum hydroxide or kaolin. It precipitates at 50% v/v saturation with alcohol. The nature of this inhibitor seems to be a protein or lipoprotein.Factor VIII was isolated from hemophilic plasma. The amount isolated was the same as from normal plasma and the activity properties were not different. Hemophiliacs have normal amounts of factor VIII.

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“In vitro” Neutralization with Oxalate Ion of the Anticoagulant Effect of Heparin

Thrombosis and Haemostasis ◽

10.1055/s-0038-1654928 ◽

1961 ◽

Vol 05 (02) ◽

pp. 314-318 ◽

Cited By ~ 1

Author(s):

W. O Cruz ◽

L Meis ◽

C. P Dietrich

Keyword(s):

Calcium Oxalate ◽

Aluminium Hydroxide ◽

Barium Sulfate ◽

Anticoagulant Effect ◽

Normal Plasma ◽

Oxalate Ion

SummaryHeparinized blood or plasma coagulates if, after addition of oxalate, recalcification follows. Of the decalcifying agents only oxalate ion has been suitable for demonstrating this phenomenon. Oxalate seem to accomplish two different roles connected with this effect: a fundamental one, i. e., to sensitize a heparinlipoprotein complex to the action of an anti-heparin factor found in normal plasma or serum and a secondary one, related to its capacity to adsorb this antiheparin factor. The latter is removable by centrifugation. This anti-heparin oxalate factor, which is able to counteract the action of heparin after previous addition of oxalate, was found in sequestrened, Dowex 50 resin plasma or in serum, but is not active in citrated plasma. This factor was removed from plasma by adsorption with barium sulfate, aluminium hydroxide or calcium oxalate and was eluted from these adsorbants after incubation with saline.

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A Simple Method for Preparing Fibrinogen

Thrombosis and Haemostasis ◽

10.1055/s-0038-1655637 ◽

1966 ◽

Vol 16 (01/02) ◽

pp. 198-206 ◽

Cited By ~ 26

Author(s):

W Straughn ◽

R. H Wagner

Keyword(s):

Barium Sulfate ◽

Caproic Acid ◽

Aminobutyric Acid ◽

Gamma Aminobutyric Acid ◽

Human Fibrinogen ◽

Simple Method ◽

High Yields ◽

Marked Stability

SummaryA simple new procedure is reported for the isolation of canine, bovine, porcine, and human fibrinogen. Two molar β-alanine is used to precipitate fibrinogen from barium sulfate adsorbed plasma. The procedure is characterized by dependability and high yields. The material is 95% to 98% clottable protein but still contains impurities such as plasminogen and fibrin-stabilizing factor. Plasminogen may be removed by adsorption with charcoal. The fibrinogen preparations exhibit marked stability to freezing, lyophilization, and dialysis. Epsilon-amino-n-caproic acid and gamma-aminobutyric acid which were also studied have the property of precipitating proteins from plasma but lack the specificity for fibrinogen found with β-alanine.

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Some Results on Stabilizability of Large-Scale Control Systems with Indetrminancy

1992 American Control Conference ◽

10.23919/acc.1992.4792764 ◽

1992 ◽

Author(s):

A.S.C Sinha

Keyword(s):

Control Systems ◽

Large Scale ◽

Scale Control

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Crystallization Behavior and Mechanical Properties of Poly(ε-caprolactone) Reinforced with Barium Sulfate Submicron Particles

Materials ◽

10.3390/ma14092368 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2368

Author(s):

Hegoi Amestoy ◽

Paul Diego ◽

Emilio Meaurio ◽

Jone Muñoz ◽

Jose-Ramon Sarasua

Keyword(s):

Barium Sulfate ◽

Thermal Studies ◽

Polarized Light ◽

Optical Microscope ◽

Submicron Particles ◽

Degree Of Crystallinity ◽

Scanning Calorimetry ◽

Nucleation Effect ◽

Crystal Fraction ◽

Light Optical Microscope

Poly(ε-caprolactone) (PCL) was mixed with submicron particles of barium sulfate to obtain biodegradable radiopaque composites. X-ray images comparing with aluminum samples show that 15 wt.% barium sulfate (BaSO4) is sufficient to present radiopacity. Thermal studies by differential scanning calorimetry (DSC) show a statistically significant increase in PCL degree of crystallinity from 46% to 52% for 25 wt.% BaSO4. Non-isothermal crystallization tests were performed at different cooling rates to evaluate crystallization kinetics. The nucleation effect of BaSO4 was found to change the morphology and quantity of the primary crystals of PCL, which was also corroborated by the use of a polarized light optical microscope (PLOM). These results fit well with Avrami–Ozawa–Jeziorny model and show a secondary crystallization that contributes to an increase in crystal fraction with internal structure reorganization. The addition of barium sulfate particles in composite formulations with PCL improves stiffness but not strength for all compositions due to possible cavitation effects induced by debonding of reinforcement interphase.

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Elemental composition control of gold-titania nanocomposites by site-specific mineralization using artificial peptides and DNA

Communications Chemistry ◽

10.1038/s42004-020-00440-8 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Makoto Ozaki ◽

Takahito Imai ◽

Takaaki Tsuruoka ◽

Shungo Sakashita ◽

Kin-ya Tomizaki ◽

...

Keyword(s):

Visible Light ◽

Elemental Composition ◽

Inorganic Compounds ◽

Medical Science ◽

Induction Effect ◽

Site Specific ◽

Composition Control ◽

Light Excitation ◽

Titania Photocatalyst ◽

Scale Control

AbstractBiomineralization, the precipitation of various inorganic compounds in biological systems, can be regulated in terms of the size, morphology, and crystal structure of these compounds by biomolecules such as proteins and peptides. However, it is difficult to construct complex inorganic nanostructures because they precipitate randomly in solution. Here, we report that the elemental composition of inorganic nanocomposites can be controlled by site-specific mineralization by changing the number of two inorganic-precipitating peptides bound to DNA. With a focus on gold and titania, we constructed a gold-titania photocatalyst that responds to visible light excitation. Both microscale and macroscale observations revealed that the elemental composition of this gold-titania nanocomposite can be controlled in several ten nm by changing the DNA length and the number of peptide binding sites on the DNA. Furthermore, photocatalytic activity and cell death induction effect under visible light (>450 nm) irradiation of the manufactured gold-titania nanocomposite was higher than that of commercial gold-titania and titania. Thus, we have succeeded in forming titania precipitates on a DNA terminus and gold precipitates site-specifically on double-stranded DNA as intended. Such nanometer-scale control of biomineralization represent a powerful and efficient tool for use in nanotechnology, electronics, ecology, medical science, and biotechnology.

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Acoustoelectronic nanotweezers enable dynamic and large-scale control of nanomaterials

Nature Communications ◽

10.1038/s41467-021-24101-z ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Peiran Zhang ◽

Joseph Rufo ◽

Chuyi Chen ◽

Jianping Xia ◽

Zhenhua Tian ◽

...

Keyword(s):

Large Scale ◽

Condensed Matter ◽

Dynamic Control ◽

Massively Parallel ◽

Large Field ◽

Graphene Flakes ◽

Field Dynamic ◽

Scale Control ◽

Orientation Pattern ◽

Resolution Single

AbstractThe ability to precisely manipulate nano-objects on a large scale can enable the fabrication of materials and devices with tunable optical, electromagnetic, and mechanical properties. However, the dynamic, parallel manipulation of nanoscale colloids and materials remains a significant challenge. Here, we demonstrate acoustoelectronic nanotweezers, which combine the precision and robustness afforded by electronic tweezers with versatility and large-field dynamic control granted by acoustic tweezing techniques, to enable the massively parallel manipulation of sub-100 nm objects with excellent versatility and controllability. Using this approach, we demonstrated the complex patterning of various nanoparticles (e.g., DNAs, exosomes, ~3 nm graphene flakes, ~6 nm quantum dots, ~3.5 nm proteins, and ~1.4 nm dextran), fabricated macroscopic materials with nano-textures, and performed high-resolution, single nanoparticle manipulation. Various nanomanipulation functions, including transportation, concentration, orientation, pattern-overlaying, and sorting, have also been achieved using a simple device configuration. Altogether, acoustoelectronic nanotweezers overcome existing limitations in nano-manipulation and hold great potential for a variety of applications in the fields of electronics, optics, condensed matter physics, metamaterials, and biomedicine.

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