Fragmentation behavior of EDTA complexes under different activation conditions

The Cu-Be alloys are widely used as the electron multiplier dynodes after the adequate activation process. But the structures and compositions of the elements on the activated surfaces were not studied clearly. The Cu-Be alloys are heated in the oxygen atmosphere in the usual activation techniques. The activation conditions, e.g. temperature and O2 pressure, affect strongly the secondary electron yield and life time of dynodes.In the present paper, the activated Cu-Be dynode surfaces at each condition are investigated with Scanning Auger Microanalyzer (SAM) (primary beam diameter: 3μmϕ) and SEM. The commercial Cu-Be(2%) alloys were polished with Cr2O3 powder, rinsed in the distilled water and set in the vacuum furnance.Two typical activation condition, i.e. activation temperature 730°C and 810°C in 5x10-3 Torr O2 pressure were chosen since the formation mechanism of the BeO film on the Cu-Be alloys was guessed to be very different at each temperature from the results of the secondary electron emission measurements.

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Thorium-edta complexes- a conductometric study

Analytica Chimica Acta ◽

10.1016/s0003-2670(01)81296-4 ◽

1960 ◽

Vol 23 ◽

pp. 200-201

Author(s):

V AATHAVALE ◽

S SARAIYA ◽

A SUNDARAM

Keyword(s):

Edta Complexes ◽

Conductometric Study

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Faculty Opinions recommendation of Activation conditions for the induction of metabotropic glutamate receptor-dependent long-term depression in hippocampal CA1 pyramidal cells.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1897956.1446054 ◽

2010 ◽

Author(s):

Graham Collingridge ◽

Stephen Fitzjohn

Keyword(s):

Glutamate Receptor ◽

Metabotropic Glutamate Receptor ◽

Pyramidal Cells ◽

Long Term Depression ◽

Metabotropic Glutamate ◽

Ca1 Pyramidal Cells ◽

Hippocampal Ca1 ◽

Activation Conditions

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RuIII(edta) complexes as molecular redox catalysts in chemical and electrochemical reduction of dioxygen and hydrogen peroxide: inner-sphere versus outer-sphere mechanism

RSC Advances ◽

10.1039/d1ra03293c ◽

2021 ◽

Vol 11 (35) ◽

pp. 21359-21366

Author(s):

Debabrata Chatterjee ◽

Marta Chrzanowska ◽

Anna Katafias ◽

Maria Oszajca ◽

Rudi van Eldik

Keyword(s):

Hydrogen Peroxide ◽

Electron Transfer ◽

Electrochemical Reduction ◽

Molecular Oxygen ◽

Outer Sphere ◽

Transfer Processes ◽

Edta Complexes ◽

Inner Sphere ◽

Electron Transfer Processes ◽

Sphere Mechanism

[RuII(edta)(L)]2–, where edta4– =ethylenediaminetetraacetate; L = pyrazine (pz) and H2O, can reduce molecular oxygen sequentially to hydrogen peroxide and further to water by involving both outer-sphere and inner-sphere electron transfer processes.

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Effects of Activation Conditions on the Properties of Sludge-Based Activated Coke

ACS Omega ◽

10.1021/acsomega.1c02600 ◽

2021 ◽

Author(s):

Liwei Wang ◽

Minghua Li ◽

Miaomiao Hao ◽

GuangKui Liu ◽

Shaofeng Xu ◽

...

Keyword(s):

Activated Coke ◽

Activation Conditions

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Characterization of a novel + 70 Da modification in rhGM-CSF expressed in E. coli using chemical assays in combination with mass spectrometry

Amino Acids ◽

10.1007/s00726-021-03004-9 ◽

2021 ◽

Author(s):

Magdalena Widgren Sandberg ◽

Jakob Bunkenborg ◽

Stine Thyssen ◽

Martin Villadsen ◽

Thomas Kofoed

Keyword(s):

Mass Spectrometry ◽

Tandem Mass Spectrometry ◽

Peptide Mapping ◽

Covalent Modification ◽

Peptide Fragmentation ◽

Tandem Mass ◽

E Coli ◽

Gm Csf ◽

Fragmentation Behavior ◽

Macrophage Colony

AbstractGranulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine and a white blood cell growth factor that has found usage as a therapeutic protein. During analysis of different fermentation batches of GM-CSF recombinantly expressed in E. coli, a covalent modification was identified on the protein by intact mass spectrometry. The modification gave a mass shift of + 70 Da and peptide mapping analysis demonstrated that it located to the protein N-terminus and lysine side chains. The chemical composition of C4H6O was found to be the best candidate by peptide fragmentation using tandem mass spectrometry. The modification likely contains a carbonyl group, since the mass of the modification increased by 2 Da by reduction with borane pyridine complex and it reacted with 2,4-dinitrophenylhydrazine. On the basis of chemical and tandem mass spectrometry fragmentation behavior, the modification could be attributed to crotonaldehyde, a reactive compound formed during lipid peroxidation. A low recorded oxygen pressure in the reactor during protein expression could be linked to the formation of this compound. This study shows the importance of maintaining full control over all reaction parameters during recombinant protein production.

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Comparative Study of Different Activation Treatments for the Preparation of Activated Carbon: A Mini-Review

Science Progress ◽

10.3184/003685017x14967570531606 ◽

2017 ◽

Vol 100 (3) ◽

pp. 299-312 ◽

Cited By ~ 7

Author(s):

Muhammad Imran Din ◽

Sania Ashraf ◽

Azeem Intisar

Keyword(s):

Activated Carbon ◽

Comparative Study ◽

Raw Materials ◽

Chemical Activation ◽

Comparative Approach ◽

Adsorption Mechanisms ◽

Temperature Activation ◽

Activation Conditions ◽

Physical And Chemical ◽

Characterisation Techniques

In this review, various methods of preparation of activated carbon from agricultural and commercial waste material are reviewed. In addition, we also discuss various activation treatments using a comparative approach. The data are organised in tabulated form for ease of comparative study. A review of numerous characterisation techniques is also provided. The effect of time and temperature, activation conditions, carbonisation conditions and impregnation ratios are explained and several physical and chemical activation treatments of raw materials and their impact on the micro- and mesoporous volumes and surface area are discussed. Lastly, a review of adsorption mechanisms of activated carbon (AC) is also provided.

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