Welcome to Loot.co.za!
Sign in / Register |Wishlists & Gift Vouchers |Help | Advanced search
|
Your cart is empty |
|||
Showing 1 - 5 of 5 matches in All Departments
Manganese has variable oxidation states and appears as Mn(III) with redox function. It plays an important role in numerous biological processes associated with utilization or generation of hydrogen peroxide or dioxygen. The functions of these type are known viz manganese superoxide dismutase, manganese catalase, manganese peroxidase, manganese ribonucleotide reductase and oxygen involving complex in photo system-II. This has prompted to under take the coordination of Mn(III) ions with ligands. The oxygen donar ligands used for the coordination are -diketones since -diketones anions are powerful chelating species and they give stable Mn(III) complex which can further be used for preparing other Mn(III) species that can be used as catalysts. The tris ( -diketonate) Mn(III) complex gives substitution as well as addition reactions with other ligands. Here propylenediamine used as anitrogen donar ligand. The nitrogen donar atom ligands ultimately result in the mixed ligand complexes for Mn(III) which are more stable in this oxidation state of manganese. In this way the aim of preparing stable Mn(III) complexes is achieved by the oxygen donor atom and nitrogen donor atom ligands."
Manganese has variable oxidation states and appears as Mn(III) with redox function. It plays an important role in numerous biological processes associated with utilization or generation of hydrogen peroxide or dioxygen. The functions of these type are known viz manganese superoxide dismutase, manganese catalase, manganese peroxidase, manganese ribonucleotide reductase and oxygen involving complex in photo system-II. This has prompted to under take the coordination of Mn(III) ions with ligands. The oxygen donar ligands used for the coordination are -diketones since -diketones anions are powerful chelating species and they give stable Mn(III) complex which can further be used for preparing other Mn(III) species that can be used as catalysts. The tris ( -diketonate) Mn(III) complex gives substitution as well as addition reactions with other ligands. Here nitrogen donar ligands used are ethylenediamine. The nitrogen donar atom ligands ultimately result in the mixed ligand complexes for Mn(III) which are more stable in this oxidation state of manganese. In this way the aim of preparing stable Mn(III) complexes is achieved by the oxygen donor atom and nitrogen donor atom ligands."
Manganese has variable oxidation states and appears as Mn(III) with redox function. It plays an important role in numerous biological processes associated with utilization or generation of hydrogen peroxide or dioxygen. The functions of these type are known viz manganese superoxide dismutase, manganese catalase, manganese peroxidase, manganese ribonucleotide reductase and oxygen involving complex in photo system-II. This has prompted to under take the coordination of Mn(III) ions with ligands. The oxygen donar ligands used for the coordination are -diketones since -diketones anions are powerful chelating species and they give stable Mn(III) complex which can further be used for preparing other Mn(III) species that can be used as catalysts. The tris ( -diketonate) Mn(III) complex gives substitution as well as addition reactions with other ligands. Here nitrogen donar ligands used are ethylenediamine, propylenediamine and hexamethylenediamine. The nitrogen donar atom ligands ultimately result in the mixed ligand complexes for Mn(III) which are more stable in this oxidation state of manganese. In this way the aim of preparing stable Mn(III) complexes is achieved by the oxygen donor"
Ascorbic acid also known as vitamin C. Vitamin C is Ascorbic acid also known as vitamin C. Vitamin C is very essential for growth and maintenance of the human body. It is necessary for the normal formation of protein collagen, which is an important constituent of skin and connective tissue. The deficiency of vitamin C causes is known as disease "Scurvy." Vitamin C is present in all citrus fruits, gooseberry (Aonla), tomato, apple, pine apple, grapes and other foods. The vitamin C is very sensitive to heat, light, air and strong alkali. Most of the part of vitamin C is lost during heat treatment (processing) like blanching, boiling, cooking, cooking under pressure and sterilization of foods. The apple, lemon, pine apple, grapes, guava, ripe mango, was heated to 60 C, 70 C, 80 C, 90 C and 100 C for different time viz. 15, 30, 45, 60, 75, 90 and 105 minute in constant temperature. The loss of vitamin C is less at low temperature. As, the time of heating is increase, the loss of vitamin C increase. The maximum loss of vitamin C has been found in the first 15 minutes of heating at different temperature, then, further rate of loss of vitamin C becomes lesser due to presence surface oxyge"
|
You may like...
Tasks in Second Language Learning
Virginia Samuda, Martin Bygate
Hardcover
R3,177
Discovery Miles 31 770
(En)Countering Native-speakerism…
Adrian Holliday, Pamela Aboshiha, …
Hardcover
R4,470
Discovery Miles 44 700
Teaching Writing in Chinese Speaking…
Mark Shiu Kee Shum, Delu Zhang
Hardcover
R3,238
Discovery Miles 32 380
Foreign Language Pedagogy in the Light…
Grzegorz Drozdz, Barbara Taraszka-Drozdz
Hardcover
R3,172
Discovery Miles 31 720
Conceptual Shifts and Contextualized…
Ali Fuad Selvi, Nathanael Rudolph
Hardcover
R3,539
Discovery Miles 35 390
Essentials for Successful English…
Thomas S. C. Farrell, George M. Jacobs
Hardcover
R2,824
Discovery Miles 28 240
International Perspectives on English as…
Hugo Bowles, Alessia Cogo
Hardcover
R1,973
Discovery Miles 19 730
|