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THE RESEARCH INSTITUTE FOR CATALYSIS HOKKAIDO UNIVERSITY | 論文
- ON THE LAW OF LAIDLER, GLASSTONE AND EYRING:Ⅰ. Derivation from the Catalytic Mechanism of Hydrogen Electrode Reaction
- ELECTROLYTIC HYDROGEN EVOLUTION ON NON-UNIFORM SURFACE:An Explanation to Tafel Equation
- RATES OF DIFFERENT DEUTEROETHYLENE AND DEUTEROETHANE FORMATION DURING CONTACT DEUTERATION OF LIGHT ETHYLENE IN THE PRESENCE OF NICKEL CATALYST:Explanation to TURKEVICH, SCHISSLER and IRSA's Experiment and Theoretical Predictions
- VELOCITY OF HYDROGEN EVOLUTION AT LOW OVERVOLTAGE:ANSWER TO COMMENTS OF BOCKRIS
- ISOTOPIC SEPARATION FACTOR OF SLOW DISCHARGE MECHANISM OF HYDROGEN ELECTRODE REACTION
- MECHANISM OF THE DISSOLUTION PROCESS OF COPPER IN ACIDIC COPPER SULPHATE SOLUTION AT EQUILIBRIUM POTENTIAL
- FINE STRUCTURE OF REACTION BETWEEN ETHANE AND DEUTERIUM ON VARIOUS EVAPORATED METAL FILMS:Explanation to ANDERSON and KEMBALL's Experiment
- ON THE HYDROGEN EXCHANGE BETWEEN DEUTERIUM AND AMMONIA CATALYZED BY EVAPORATED NICKEL FILM
- EXCHANGE REACTION BETWEEN ACETYLENE OR METHYLACETYLENE AND DEUTEROACETYLENE ON NICKEL
- EXCHANGE REACTION BETWEEN ETHANE AND DEUTERIUM ON EVAPORATED METAL FILMS:Reply to Comments of KEMBALL
- HYDROGENATION OF ACETONE ON ZnO CATALYST:Part 1-Kinetics and hydrogen exchanges
- HYDROGENATION OF ETHYLENE ON METALLIC CATALYSTS:Part 10-The Reaction on Evaporated Iridium Film
- EXCHANGE REACTION BETWEEN METHANE AND DEUTERIUM
- ON THE DISCONTINUOUS CHANGE WITH ELECTRODE POTENTIAL OF CHARGE REQUIRED TO INCREASE UNIT AREA OF HYDROGEN ELECTRODE OF MERCURY.
- HYDROGENATION OF ACETONE ON ZnO CATALYST:Part 2. Infrared spectroscopy of adsorbed intermediates and mechanism of the reaction
- MEASUREMENT OF ACTIVE SITE DENSITY ON A SULFIDED NICKEL CATALYST
- HYDRAZINE SYNTHESIS BY N2-HYDROGENATION ON SOLID SURFACES WITH GLOW DISCHARGE
- HYDROGENATION OF ETHYLENE ON METALLIC CATALYSTS:Part 6-Dissociative Adsorption of Ethylene Concurrent with the Catalyzed Hydrogenation of Ethylene on Evaporated Nickel Film
- COMMENT ON MILNER'S PAPER ON “THE POSSIBLE MECHANISMS OF COMPLEX REACTIONS”
- MECHANISTIC ANALYSIS OF STEADY HETEROGENEOUS CATALYSIS:Application to Hydrogenolysis of Cyclopentanone over Tungsten Catalyst