D-Index & Metrics Best Publications
Tomoki Akita

Tomoki Akita

National Institute of Advanced Industrial Science and Technology
Japan

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Chemistry D-index 70 Citations 21,819 213 World Ranking 3458 National Ranking 211

Overview

What is he best known for?

The fields of study he is best known for:

  • Catalysis
  • Organic chemistry
  • Hydrogen

Tomoki Akita mostly deals with Catalysis, Inorganic chemistry, Chemical engineering, Heterogeneous catalysis and Nanoparticle. Catalysis is a primary field of his research addressed under Organic chemistry. His Inorganic chemistry research includes themes of Hydrogen, Bimetallic strip, Dehydrogenation, Metal-organic framework and Colloidal gold.

Tomoki Akita has included themes like Porosity, Nanotechnology, Metal, Crystallite and Composite number in his Chemical engineering study. Tomoki Akita focuses mostly in the field of Heterogeneous catalysis, narrowing it down to matters related to Photochemistry and, in some cases, Crotonaldehyde, Aluminium oxides, Aldehyde and 1,3-Butadiene. His Nanoparticle research integrates issues from Alloy and Combinatorial chemistry.

His most cited work include:

  • Metal-organic framework as a template for porous carbon synthesis (1189 citations)
  • All-solid-state Z-scheme in CdS-Au-TiO2 three-component nanojunction system. (846 citations)
  • From Metal–Organic Framework to Nanoporous Carbon: Toward a Very High Surface Area and Hydrogen Uptake (843 citations)

What are the main themes of his work throughout his whole career to date?

Tomoki Akita mainly investigates Catalysis, Inorganic chemistry, Chemical engineering, Nanoparticle and Analytical chemistry. His Catalysis research is multidisciplinary, incorporating perspectives in Nanotechnology and Metal. The concepts of his Inorganic chemistry study are interwoven with issues in Bimetallic strip, Transition metal, Adsorption, Metal-organic framework and Calcination.

The Chemical engineering study combines topics in areas such as Composite number and Platinum. His Nanoparticle research includes elements of Alloy, Photochemistry, Dehydrogenation and Substrate. His Analytical chemistry study incorporates themes from Scanning transmission electron microscopy, Transmission electron microscopy, Electron energy loss spectroscopy, Crystallography and Ion.

He most often published in these fields:

  • Catalysis (49.78%)
  • Inorganic chemistry (31.72%)
  • Chemical engineering (29.52%)

What were the highlights of his more recent work (between 2013-2018)?

  • Catalysis (49.78%)
  • Chemical engineering (29.52%)
  • Analytical chemistry (21.59%)

In recent papers he was focusing on the following fields of study:

His scientific interests lie mostly in Catalysis, Chemical engineering, Analytical chemistry, Inorganic chemistry and Transmission electron microscopy. The study incorporates disciplines such as Electron microscope, Nanoparticle, Crystallography and Metal in addition to Catalysis. His Chemical engineering study combines topics in areas such as Porosity, Nanotechnology, Electrolyte, Metal-organic framework and Composite number.

His Analytical chemistry research incorporates elements of Electron energy loss spectroscopy, Reflection, Phase and Electrode. His study looks at the relationship between Inorganic chemistry and topics such as Nanostructure, which overlap with Ethanol oxidation reaction, Ethanol and Carbon. His research investigates the link between Transmission electron microscopy and topics such as Lithium titanate that cross with problems in Sodium-ion battery, Electrochemistry, Reaction mechanism, Stoichiometry and Layer.

Between 2013 and 2018, his most popular works were:

  • Metal-Organic Framework-Derived Honeycomb-Like Open Porous Nanostructures as Precious-Metal-Free Catalysts for Highly Efficient Oxygen Electroreduction. (280 citations)
  • Toward Homogenization of Heterogeneous Metal Nanoparticle Catalysts with Enhanced Catalytic Performance: Soluble Porous Organic Cage as a Stabilizer and Homogenizer (121 citations)
  • From ionic-liquid@metal–organic framework composites to heteroatom-decorated large-surface area carbons: superior CO2 and H2 uptake (55 citations)

In his most recent research, the most cited papers focused on:

  • Catalysis
  • Organic chemistry
  • Oxygen

His primary areas of study are Catalysis, Inorganic chemistry, Chemical engineering, Analytical chemistry and Nanoparticle. His research on Catalysis focuses in particular on Benzyl alcohol. His Inorganic chemistry research includes themes of Photocatalysis, Vanillin, Lignin, Selectivity and Thermal treatment.

The study incorporates disciplines such as Heterogeneous catalysis, Porosity, Electrolyte and Metal-organic framework in addition to Chemical engineering. His research in Analytical chemistry intersects with topics in Lithium titanate, Scanning transmission electron microscopy, Phase, Electron energy loss spectroscopy and Crystal. The concepts of his Nanoparticle study are interwoven with issues in Grinding, High activity, Active site, Hydrodeoxygenation and Refining.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Metal-organic framework as a template for porous carbon synthesis

Bo Liu;Hiroshi Shioyama;Tomoki Akita;Qiang Xu.
Journal of the American Chemical Society (2008)

2173 Citations

All-solid-state Z-scheme in CdS-Au-TiO2 three-component nanojunction system.

Hiroaki Tada;Tomohiro Mitsui;Tomokazu Kiyonaga;Tomoki Akita.
Nature Materials (2006)

1582 Citations

From Metal–Organic Framework to Nanoporous Carbon: Toward a Very High Surface Area and Hydrogen Uptake

Hai-Long Jiang;Bo Liu;Ya-Qian Lan;Kentaro Kuratani.
Journal of the American Chemical Society (2011)

1472 Citations

Au@ZIF-8: CO Oxidation over Gold Nanoparticles Deposited to Metal−Organic Framework

Hai-Long Jiang;Bo Liu;Tomoki Akita;Masatake Haruta.
Journal of the American Chemical Society (2009)

1056 Citations

Synergistic Catalysis of Au@Ag Core−Shell Nanoparticles Stabilized on Metal−Organic Framework

Hai-Long Jiang;Tomoki Akita;Tamao Ishida;Masatake Haruta.
Journal of the American Chemical Society (2011)

907 Citations

Synergistic Catalysis of Metal–Organic Framework-Immobilized Au–Pd Nanoparticles in Dehydrogenation of Formic Acid for Chemical Hydrogen Storage

Xiaojun Gu;Zhang-Hui Lu;Zhang-Hui Lu;Hai-Long Jiang;Tomoki Akita.
Journal of the American Chemical Society (2011)

743 Citations

Analysis of electrocatalyst degradation in PEMFC caused by cell reversal during fuel starvation

Akira Taniguchi;Tomoki Akita;Kazuaki Yasuda;Yoshinori Miyazaki.
Journal of Power Sources (2004)

639 Citations

Au/TiO2 Nanosized Samples: A Catalytic, TEM, and FTIR Study of the Effect of Calcination Temperature on the CO Oxidation

Flora Boccuzzi;Anna Chiorino;Maela Manzoli;Ping Lu.
Journal of Catalysis (2001)

614 Citations

Deposition of Gold Clusters on Porous Coordination Polymers by Solid Grinding and Their Catalytic Activity in Aerobic Oxidation of Alcohols

Tamao Ishida;Megumi Nagaoka;Tomoki Akita;Masatake Haruta.
Chemistry: A European Journal (2008)

496 Citations

One-Step Seeding Growth of Magnetically Recyclable Au@Co Core−Shell Nanoparticles: Highly Efficient Catalyst for Hydrolytic Dehydrogenation of Ammonia Borane

Jun-Min Yan;Xin-Bo Zhang;Tomoki Akita;Masatake Haruta.
Journal of the American Chemical Society (2010)

486 Citations

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Frequent Co-Authors

Masatake Haruta

Masatake Haruta

Tokyo Metropolitan University

Mitsutaka Okumura

Mitsutaka Okumura

Osaka University

Qiang Xu

Qiang Xu

Kyoto University

Susumu Tsubota

Susumu Tsubota

National Institute of Advanced Industrial Science and Technology

Kazuaki Yasuda

Kazuaki Yasuda

National Institute of Advanced Industrial Science and Technology

Hiroaki Tada

Hiroaki Tada

Kindai University

Hai-Long Jiang

Hai-Long Jiang

University of Science and Technology of China

Mitsuharu Tabuchi

Mitsuharu Tabuchi

National Institute of Advanced Industrial Science and Technology

Yong-Mei Liu

Yong-Mei Liu

Fudan University

Tetsuhiko Kobayashi

Tetsuhiko Kobayashi

National Institute of Advanced Industrial Science and Technology

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