Oskar Baudisch | Academic Influence

Oskar Baudisch's AcademicInfluence.com Rankings

Oskar Baudisch

Biology

#10636

Historical Rank

Biochemistry

#2793

Historical Rank

biology Degrees

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Biology

Oskar Baudisch's Degrees

PhD Chemistry University of Vienna

Why Is Oskar Baudisch Influential?

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According to Wikipedia, Oskar Baudisch was an Austrian American biochemist and radiographer. He is mainly known for a chemical reaction that bears his name, the Baudisch reaction. Early life and education Baudisch was born to Joseph and Julie Baudisch in Maffersdorf, Austria, which is today Vratislavice nad Nisou, now part of the Czech Republic.

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Oskar Baudisch's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

THE PREPARATION OF URACIL FROM UREA (1926) (77)
Colorimetric Determination of Boron Using 1,1'-Dianthrimide (1949) (72)
THE MECHANISM OF OXIDATION OF THYMINE 4,5-DIHYDROXYHYDROTHYMINE (THYMINE GLYCOL) (1925) (44)
XXXIX. The two-staye transformation of magnetite into hematite (1925) (41)
GAMMA-FERRIC OXIDE HYDRATE (1932) (28)
A NEW CHEMICAL REACTION WITH THE NITROSYL RADICAL NOH. (1940) (27)
Active Iron. II. Relationships among the Oxide Hydrates and Oxides of Iron and Some of Their Properties. (1934) (24)
Radical Reactions With Certain Nitrogen Compounds: The Conversion of Benzene (Toluene, etc.) in Other Compounds at Low Temperature. (1948) (22)
Organic reagents used in quantitative inorganic analysis (1940) (17)
BIOLOGY OF BACTERIUM LEPISEPTICUM : II. THE STRUCTURE OF SOME IRON COMPOUNDS WHICH INFLUENCE THE GROWTH OF CERTAIN BACTERIA OF THE HEMOPHILIC, ANAEROBIC, AND HEMORRHAGIC SEPTICEMIA GROUPS. (1925) (14)
THE OXIDATION OF ISOBARBITURIC ACID A NEW CLASS OF INDIGOÏDS (1925) (14)
ON THE AGING OF FERROUS HYDROXIDE AND FERROUS CARBONATE (1925) (13)
STUDIES ON ACETOL. I. A NEW TEST FOR CARBOHYDRATES (1922) (13)
Active Iron. I. The Structure of Werner Complexes of Metals of the Iron Family in Relation to the Chemical, Physical, and Biological Behavior of Their Central Metal Atoms. (1934) (13)
Preparation of o-Nitrosophenols from Benzene or Other Aromatic Hydrocarbons at Room Temperature (1941) (11)
Valence Theories and the Magnetic Properties of Complex Salts (1925) (10)
LXII. Ferromagnetism in the oxide obtained by dehydration of gamma ferric oxide hydrate (1934) (10)
CATALYTIC OXIDATION BY MEANS OF COMPLEX IRON SALTS (9)
THE MECHANISM OF REDUCTION OF NITRATES AND NITRITES IN PROCESSES OF ASSIMILATION (1921) (8)
Cupferron: Its Use in Quantitative Analysis. (1911) (7)
THE IMPORTANCE OF TRACE ELEMENTS IN BIOLOGIC ACTIVITY (1943) (6)
ON THE MECHANISM OF THE CATALYTIC ACTION OF IRON SALTS. I (1924) (6)
Magic and science of natural healing waters (1939) (5)
ON THE FORMATION OF ORGANIC COMPOUNDS FROM INORGANIC BY THE INFLUENCE OF LIGHT. (1923) (5)
NATURAL MINERAL WATERS IN THE LIGHT OF MODERN RESEARCH: THE CATALYTIC ACTION OF THE SARATOGA SPRINGS (1927) (5)
Geochemistry of the Saratoga Basin, the radioactivity of Saratoga Spring waters and rocks (1939) (4)
DETECTION OF THYMINE IN THE PRESENCE OF SUGAR (1922) (4)
ON THE CATALYTICALLY ACTIVE AND INACTIVE FORMS OF FERRIC OXIDE (1925) (4)
BIOLOGICAL FUNCTION OF MINOR ELEMENTS (1945) (4)
CHEMICAL CLUES TO THE ORIGIN OF THE SARATOGA MINERAL WATERS. (1937) (3)
THE ISOTOPES OF POTASSIUM AND LITHIUM IN SARATOGA MINERAL WATER AND CRYPTOZOON (1937) (3)
ACTIVE IRON. (3)
Variability in artificial ferromagnetic iron oxides (1934) (3)
ON THE CHEMISTRY OF THE PYRIMIDINES VI. NEW COLOR TESTS FOR URACIL AND CYTOSINE (1924) (3)
THE OXIDATION OF 5-AMINOURACIL (3)
THE o-QUINONE TEST FOR CYSTEINE (1933) (3)
CERTAIN OXIDES OF IRON IN SOME NEW CATALYTIC ACTIONS. (1925) (3)
RESEARCHES ON PYRIMIDINES. XCII. NEW METHODS OF IDENTIFYING THE PYRIMIDINE, THYMINE. (1921) (2)
ON THE AGING OF NATURAL MINERAL WATERS (1925) (2)
VIII. Transformations from γ-FeOOH and γ-Fe2O3 to α-Fe2O3 at lower temperatures and the irreversible transition γ-FeOOH to α-FeOOH (1937) (2)
NEW METHODS OF SPLITTING PYRIMIDINES. II. THE DECOMPOSITION OF PYRIMIDINES BY MEANS OF FERROUS SALTS (1923) (2)
Piperidine Metavanadate, a New Light-Sensitive Compound (1934) (2)
A NEW COLOR TEST FOR CYSTEINE (1932) (2)
The Influence of Light on Inorganic Matter and Life Processes. (1923) (2)
NEW METHODS OF SPLITTING PYRIMIDINES. IV. A STUDY OF THE MECHANISM OF THE DECOMPOSITION OF THYMINE1 (2)
Formation of Organic Compounds from Inorganic by the Influence of Light (2)
Effect of ferric oxides and hydroxides on the growth of bacteria. (1932) (1)
Über m‐Nitroso‐anisol (1915) (1)
NEW METHODS OF SPLITTING PYRIMIDINES. III. THE ACTION OF IODINE SOLUTION ON PYRIMIDINES1 (1)
Radioactivation of colloidal gamma ferric oxide. (1946) (1)
Quantitative colorimetric determination of iron in biological material p-tert-Butyl-o-nitrosophenol (butyl nitroso) a new organic reagent. (1942) (1)
BIOLOGY OF BACTERIUM LEPISEPTICUM (1925) (0)
XI. Some evidence for the existence of higher hydrates of ferric oxide as transition intermediates (1941) (0)
Radioactivation of Colloidal Gamma Ferric Oxide. (1946) (0)
Carotenoid content of certain moor soils. (0)

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