13479-54-4Relevant articles and documents
Synthesis and characterization of surfactant assisted copper nanomaterials
Murali Krishna,Hussain Reddy,Rashmitha,Sravanthi,Sujathamma
, p. 2700 - 2706 (2020/11/23)
In this work, a simple and low cost synthetic method for four different copper nanomaterials having uniform shape and size using copper(II) acetate and cis-bis(glycinato)copper(II) complex in presence of non-ionic surfactants Tween-80 and Triton X-100 in the presence of ascorbic acid as reducing agent is described. The synthesized nanomaterials were characterized using FT-IR, UV-visible, powder XRD, EDX and SEM techniques. The characterization data reveals that all the copper nanomaterials formed are less than 30 nm size with spherical shape.
Thermally induced oxidative decarboxylation of copper complexes of amino acids and formation of strecker aldehyde
Nashalian, Ossanna,Yaylayan, Varoujan A.
, p. 8518 - 8523 (2014/11/26)
In the Maillard reaction, independent degradations of amino acids play an important role in the generation of amino-acid-specific products, such as Strecker aldehydes or their Schiff bases. Such oxidative decarboxylation reactions are expected to be enhan
Method for Producing Amino Acid Chelate Compounds, Amino Acid Chelate Compounds and Use of Amino Acid Chelate Compounds
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Paragraph 0066-0073, (2014/02/16)
A method for producing amino acid chelate compounds, characterized in that metal oxides and/or metal carbonates and/or metal sulfates and/or metal chlorides and/or metal hydroxides in solid form are activated mechanically and then the activated metal oxides and/or metal carbonates and/or metal hydroxides and/or metal sulfates and/or metal chlorides are brought together with amino acids in solid form and converted to amino acid chelate compounds in a solid-state reaction.