Kinetic investigations of the reactions of toluene and of p-xylene with molecular oxygen between 1050 and 1400 K

SummaryThe LDH-isoenzymes of human blood platelets show a distinct predominance of the isoenzymes 2 and 3 upon chromatography on DEAE-cellulose. Small amounts of LDH-1 are also present, while only traces of LDH-4 and -5 can be detected.Enzyme kinetic investigations of the principal isoenzymes LDH-1, -2 and -3 clearly show that the differences in inhibition constants with pyruvate as substrate which are demonstrable at 25° largely disappear at 37°. On the other hand, the differences among the isoenzymes in their affinity for pyruvate and lactate as substrate as well as in with respect to the optimal substrate concentrations of pyruvate are more marked at 37° than at 25°. Also, the type of inhibition found with lactate as substrate is increasingly the expression of a higher order reaction in going from LDH-1 to LDH-3. A dependence of the LDH distribution pattern upon the metabolism of the cell is discussed. A comparison of our results with thrombocytes with those of other workers with erythrocytes and leucocytes makes it unlikely that the LDH pattern is directly dependent upon the existence of an oxidative metabolism. Rather, the redox potential of the cell could be of importance for the nature of the pattern of isoenzymes and for their differing kinetic properties.

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Interaction of Molecular Oxygen with Si(001) Surface Covered with a Chromium or Titanium Monolayer

Ukrainian Journal of Physics ◽

10.15407/ujpe60.01.0046 ◽

2015 ◽

Vol 60 (1) ◽

pp. 46-51 ◽

Cited By ~ 2

Author(s):

I.P. Koval ◽

◽

Yu.A. Len ◽

M.G. Nakhodkin ◽

M.O. Svishevs’kyi ◽

...

Keyword(s):

Molecular Oxygen

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Near-infrared Light Emission from Nanomolar-level Singlet Molecular Oxygen Generated with an Ultralow Concentration Mixture of Hypochlorite and Hydrogen Peroxide

Photochemistry and Photobiology ◽

10.1562/0031-8655(1998)068<0016:nilefn>2.3.co;2 ◽

1998 ◽

Vol 68 (1) ◽

pp. 16

Author(s):

Takuo Shiraishi ◽

Masao Makiuchi ◽

Katsuko Kakinuma ◽

Humio Inaba

Keyword(s):

Hydrogen Peroxide ◽

Molecular Oxygen ◽

Near Infrared ◽

Light Emission ◽

Infrared Light ◽

Singlet Molecular Oxygen ◽

Near Infrared Light ◽

Ultralow Concentration

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Energetic Control of Redox-Active Polymers Towards Safe Organic Bioelectronic Materials

10.26434/chemrxiv.11366186.v1 ◽

2019 ◽

Author(s):

Alexander Giovannitti ◽

Reem B. Rashid ◽

Quentin Thiburce ◽

Bryan D. Paulsen ◽

Camila Cendra ◽

...

Keyword(s):

Molecular Oxygen ◽

Organic Semiconductors ◽

Side Reaction ◽

Semiconducting Polymers ◽

Side Reactions ◽

Redox Active ◽

Donor Acceptor ◽

Electrochemical Devices ◽

Biological Environment ◽

Device Operation

Avoiding faradaic side reactions during the operation of electrochemical devices is important to enhance the device stability, to achieve low power consumption, and to prevent the formation of reactive side‑products. This is particularly important for bioelectronic devices which are designed to operate in biological systems. While redox‑active materials based on conducting and semiconducting polymers represent an exciting class of materials for bioelectronic devices, they are susceptible to electrochemical side‑reactions with molecular oxygen during device operation. We show that this electrochemical side reaction yields hydrogen peroxide (H2O2), a reactive side‑product, which may be harmful to the local biological environment and may also accelerate device degradation. We report a design strategy for the development of redox-active organic semiconductors based on donor-acceptor copolymers that prevent the formation of H2O2 during device operation. This study elucidates the previously overlooked side-reactions between redox-active conjugated polymers and molecular oxygen in electrochemical devices for bioelectronics, which is critical for the operation of electrolyte‑gated devices in application-relevant environments.

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Optical Properties of Photodynamic Therapy Drugs in Different Environments: The Paradigmatic Case of Temoporfin

10.26434/chemrxiv.12118917.v2 ◽

2020 ◽

Author(s):

busenur Aslanoglu ◽

Ilya Yakavets ◽

Vladimir Zorin ◽

Henri-Pierre Lassalle ◽

Francesca Ingrosso ◽

...

Keyword(s):

Drug Delivery ◽

Optical Properties ◽

Photodynamic Therapy ◽

Minimally Invasive ◽

Visible Light ◽

Cancer Treatment ◽

Singlet Oxygen ◽

Tumor Cells ◽

Molecular Oxygen ◽

Computational Tools

Computational tools have been used to study the photophysical and photochemical features of photosensitizers in photodynamic therapy (PDT) –a minimally invasive, less aggressive alternative for cancer treatment. PDT is mainly based by the activation of molecular oxygen through the action of a photoexcited sensitizer (photosensitizer). Temoporfin, widely known as mTHPC, is a second-generation photosensitizer, which produces the cytotoxic singlet oxygen when irradiated with visible light and hence destroys tumor cells. However, the bioavailability of the mostly hydrophobic photosensitizer, and hence its incorporation into the cells, is fundamental to achieve the desired effect on malignant tissues by PDT. In this study, we focus on the optical properties of the temoporfin chromophore in different environments –in vacuo, in solution, encapsulated in drug delivery agents, namely cyclodextrin, and interacting with a lipid bilayer.

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OXIDATION OF CYCLOPENTADIENYL RADICAL WITH MOLECULAR OXYGEN: A THEORETICAL STUDY

8th International Symposium on Nonequilibrium Processes, Plasma, Combustion, and Atmospheric Phenomena held Том. Volum 1. Kinetics and plasma ◽

10.30826/nepcap2018-1-28 ◽

2018 ◽

Author(s):

A. D. OLEINIKOV ◽

◽

V. N. AZYAZOV ◽

A.M. MEBEL ◽

◽

...

Keyword(s):

Molecular Oxygen ◽

Theoretical Study ◽

Cyclopentadienyl Radical

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Kinetic Investigations of Boronized Cold Work Tool Steels

Materials Testing ◽

10.3139/120.110531 ◽

2014 ◽

Vol 56 (2) ◽

pp. 104-110 ◽

Cited By ~ 2

Author(s):

Polat Topuz ◽

Eren Yılmaz ◽

Emine Gündoğdu

Keyword(s):

Cold Work ◽

Tool Steels ◽

Kinetic Investigations

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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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