History of Organic Chemistry
Chromatography
an important analytic technique used for separation and purification
Hermann Kolbe
Synthesized acetic acid
aniline purple
other term for perkin's mauve
Friedrich Kekule
Discovery of the chemical structure of benzene (ring of 6 carbon atoms)
Wallace Carothers
Invented Nylon
nylon
Less expensive than silk for making hosiery the most commercially successful synthetic polymer in the history
Adolf von Baeyer
begins work on indigo dye
Linus Carl Pauling
concept of hybridization and chemical bonding and resonance as a means to explain the structure of benzene
Friedrich Wohler and Justus von Liebig
discovered and explained functional groups and radicals
Bohr model of atom
electron exists only in strictly defined orbitals
acid
electron pair acceptor
base
electron pair donor
Alexander Parkes
exhibits Parkesine
Bakelite
first commercially successful heat resistant plastic
Perkin's Mauve
first synthetic dye
Parkesine
first synthetic polymers or the foundation of the modern plastics industry
Jons Jakob Berzelius
first to distinguish between organic and inorganic compound
Carbonyl
functional group for aldehydes, ketones, carboxylic acids, amides, esters
William Henry Perkin
he proposed Perkin's Mauvine (purple dye)
Leo Hendrik Baekeland
invented bakelite
Mikhail Semyonovich Tsvet
invented chromatography
indigo dye
it revolutionizes the dye industry.
Benjamin Silliman Jr.
pioneers methods of petroleum cracking
Gilbert Lewis
proposed the acid and base
Gilbert Lewis
proposed the valence bond theory
Friedrich Wohler
proposed to synthesized urea
Jons Jakob Berzelius
proposes modern chemical symbols and notation, and of the concept of relative atomic weight.
covalent bonding
sharing of electronic
Friedrich Kekule
tetravalency of carbon
vital force theory
theory that abandon the synthesise of urea
Jacobus Henricus van 't Hoff Joseph Achille Le Bel
they worked independently and developed the model of chemical bonding that explains the chirality experiments of Pasteur and provides a physical cause for optical activity in chiral compounds.
urea
used for chemical fertilizers for crops
1865
year when Adolf von Baeyer begins work on indigo dye, a milestone in modern industrial organic chemistry which revolutionizes the dye industry.
1862
year when Alexander Parkes exhibits Parkesine, one of the earliest synthetic polymers, at the International Exhibition in London.
1855
year when Benjamin Silliman Jr. pioneers methods of petroleum cracking
1857
year when Friedrich August Kekulé von Stradonitz proposes that carbon is tetravalent
1865
year when Friedrich August Kekulé von Stradonitz, based partially on the work of Loschmidt and others, establishes structure of benzene
1832
year when Friedrich Wohler and Justus von Liebig discovered and explained functional groups and radicals
1828
year when Friedrich Wohler synthesized urea
1916
year when Gilber Lewis proposed the valence bond theory
1847
year when Hermann Kolbe synthesized acetic acid
1873
year when Jacobus Henricus van 't Hoff and Joseph Achille Le Bel, worked independently, developed the model of chemical bonding that explains the chirality experiments of Pasteur and provides a physical cause for optical activity in chiral compounds.
1808
year when Jons Jakob Berzelius proposed the modern chemical symbols and notation, and of the concept of relative atomic weight.
1907
year when Leo Hendrick Baekeland invented bakelite
1923
year when Lewis Gilbert proposed the Acid and Base
1939
year when Linus Carl Pauling proposed the concept of hybridization
1903
year when Mikhail Semyonovich Tsvet invents chromatography
1913
year when Niels Bohr invented the Bohr model of atom
1935
year when Wallace Carothers invented the nylon
1856
year when William Henry Perkin synthesizes Perkin's mauve
