A NOVEL APPROACHES FOR ORGANIC COMPOUND REACTIONS BY USING NICKEL CATALYST

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Mr.NANTHAGOPAL.P; Dr.D.NAGAVALLI; Dr.G.ABIRAMI

A NOVEL APPROACHES FOR ORGANIC COMPOUND REACTIONS BY USING NICKEL CATALYST

Authors: Mr.NANTHAGOPAL.P, Dr.D.NAGAVALLI, Dr.G.ABIRAMI

Unique Paper ID: 190374
PageNo: 1732-1753

Keywords: Nickel(Ni) Organic Reactions Ni-combined- Reaction Ni-catalyst.

Abstract:
nickel catalyst is a substance containing that speeds up chemical reactions is a element it has symbol [Ni] and atomic number 28. Nickel is one of four elements others are iron, cobalt, and gadolinium) Nickel has two atomic electron configurations, [Ar] 3d8 4s2 and [Ar] 3d9 4s1,Used for the selective hydrogenation of dienes and alkynes in processes Catalyze the decomposition of ammonia and urea to produce hydrogen, often integrated with renewable energy sources for green hydrogen production by Organic synthesis: Widely used in crosscoupling reactions to form carbon-carbon and carbonheteroatom bonds.Where as utilization for Industrial processes for breaking down methane into hydrogen and carbon dioxide, and for hydrogenating unsaturated fatty acids. There are many forms exist in numerous forms, such as alloys, nickel supported on metal oxides, Raney Nickel, nickel salts, and organometallic complexes. Nickel catalysts are known for being inexpensive, accessing multiple oxidation states of Nickel catalysts are known for being inexpensive, accessing multiple oxidation state Ni(0), Ni(II), Ni(III), Ni(IV), and coming in various forms, including alloys, metal oxides, and the porous form known as Raney Nickel.Otherwise used for Nickel boride is the common name of materials composed chiefly of the elements nickel and boron that are widely used as catalysts in organic chemistry. The H2/Ni2 system will not hydrogenolyse ethers, alcohols, aldehydes, amines and amides as it reduces alkenes in preference, even under forcing conditions.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{190374,
        author = {Mr.NANTHAGOPAL.P and Dr.D.NAGAVALLI and Dr.G.ABIRAMI},
        title = {A NOVEL APPROACHES FOR ORGANIC COMPOUND REACTIONS BY USING NICKEL CATALYST},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {8},
        pages = {1732-1753},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=190374},
        abstract = {nickel catalyst is a substance containing
that speeds up chemical reactions is a element it
has symbol [Ni] and atomic number 28. Nickel is one of
four elements others are iron, cobalt, and gadolinium)
Nickel has two atomic electron configurations, [Ar]
3d8 4s2 and [Ar] 3d9 4s1,Used for the selective
hydrogenation of dienes and alkynes in
processes Catalyze the decomposition of ammonia and
urea to produce hydrogen, often integrated with
renewable energy sources for green hydrogen
production by Organic synthesis: Widely used in crosscoupling
reactions to form carbon-carbon and carbonheteroatom
bonds.Where as utilization for Industrial
processes for breaking down methane into hydrogen
and carbon dioxide, and for hydrogenating unsaturated
fatty acids. There are many forms exist in numerous
forms, such as alloys, nickel supported on metal oxides,
Raney Nickel, nickel salts, and organometallic
complexes. Nickel catalysts are known for being
inexpensive, accessing multiple oxidation states of
Nickel catalysts are known for being inexpensive,
accessing multiple oxidation state Ni(0), Ni(II), Ni(III),
Ni(IV), and coming in various forms, including alloys,
metal oxides, and the porous form known as Raney
Nickel.Otherwise used for Nickel boride is the common
name of materials composed chiefly of the
elements nickel and boron that are widely used
as catalysts in organic chemistry. The H2/Ni2 system
will not hydrogenolyse ethers, alcohols, aldehydes,
amines and amides as it reduces alkenes in preference,
even under forcing conditions.},
        keywords = {Nickel(Ni),Organic Reactions, Ni-combined- Reaction, Ni-catalyst.},
        month = {January},
        }

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Cite This Article

Mr.NANTHAGOPAL.P, , & Dr.D.NAGAVALLI, , & Dr.G.ABIRAMI, (2026). A NOVEL APPROACHES FOR ORGANIC COMPOUND REACTIONS BY USING NICKEL CATALYST. International Journal of Innovative Research in Technology (IJIRT), 12(8), 1732–1753.

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