The scientist’s investigation covers issues in Nanotechnology, Coordination polymer, Porosity, Metal-organic framework and Crystal. His Nanotechnology study combines topics in areas such as Polymer, Nanometre, Porous medium and Nucleation. The various areas that Shuhei Furukawa examines in his Coordination polymer study include Inorganic chemistry, Crystal growth, Catalysis and Nanoporous.
His Porosity research incorporates themes from Nanoparticle, Porous Coordination Polymers and Carbonization. His study explores the link between Metal-organic framework and topics such as Carbon that cross with problems in Specific surface area and Pore size. The various areas that Shuhei Furukawa examines in his Crystal study include Molecule and Chemical engineering.
His primary areas of investigation include Nanotechnology, Metal-organic framework, Porosity, Chemical engineering and Coordination polymer. The Nanoparticle research he does as part of his general Nanotechnology study is frequently linked to other disciplines of science, such as Mesoscopic physics, therefore creating a link between diverse domains of science. His research in Porosity intersects with topics in Nanoporous, Microporous material and Porous Coordination Polymers.
His research investigates the connection with Chemical engineering and areas like Adsorption which intersect with concerns in Thin film. His Coordination polymer research is multidisciplinary, relying on both Crystal growth, Epitaxy, Inorganic chemistry, Polymer chemistry and Crystal. His Molecule research is multidisciplinary, incorporating perspectives in Chemical physics and Scanning tunneling microscope.
His scientific interests lie mostly in Metal-organic framework, Chemical engineering, Nanotechnology, Porous medium and Metal. His Metal-organic framework study combines topics in areas such as Chemical physics, Thin film, Solvent free and Porosimetry. His Chemical engineering study integrates concerns from other disciplines, such as Porosity and Zeolitic imidazolate framework.
The concepts of his Porosity study are interwoven with issues in Supramolecular chemistry, Polymerization and Self-assembly. Shuhei Furukawa combines Nanotechnology and Gasotransmitters in his research. His work carried out in the field of Metal brings together such families of science as Covalent bond, Rhodium, Reactivity and Surface modification.
Shuhei Furukawa focuses on Metal-organic framework, Chemical engineering, Nanotechnology, Microporous material and Solubility. His biological study spans a wide range of topics, including Targeted drug delivery and Solvent free. His Chemical engineering research is multidisciplinary, incorporating elements of Porosity and Porous medium.
His Porosity research includes themes of Supramolecular chemistry, Polymerization, Polymer and MOPS. His research in Nanotechnology is mostly concerned with Controlled delivery. While the research belongs to areas of Solubility, Shuhei Furukawa spends his time largely on the problem of Surface modification, intersecting his research to questions surrounding Metal.
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Three-dimensional porous coordination polymer functionalized with amide groups based on tridentate ligand: selective sorption and catalysis.
Shinpei Hasegawa;Satoshi Horike;Ryotaro Matsuda;Shuhei Furukawa.
Journal of the American Chemical Society (2007)
Thermal Conversion of Core–Shell Metal–Organic Frameworks: A New Method for Selectively Functionalized Nanoporous Hybrid Carbon
Jing Tang;Rahul R. Salunkhe;Jian Liu;Nagy L. Torad.
Journal of the American Chemical Society (2015)
Molecular decoding using luminescence from an entangled porous framework
Yohei Takashima;Virginia Martínez Martínez;Shuhei Furukawa;Mio Kondo.
Nature Communications (2011)
Nanoporous Nanorods Fabricated by Coordination Modulation and Oriented Attachment Growth
Takaaki Tsuruoka;Shuhei Furukawa;Yohei Takashima;Kaname Yoshida.
Angewandte Chemie (2009)
Structuring of metal–organic frameworks at the mesoscopic/macroscopic scale
Shuhei Furukawa;Julien Reboul;Stéphane Diring;Kenji Sumida.
Chemical Society Reviews (2014)
Direct Carbonization of Al-Based Porous Coordination Polymer for Synthesis of Nanoporous Carbon
Ming Hu;Julien Reboul;Shuhei Furukawa;Nagy L. Torad.
Journal of the American Chemical Society (2012)
Controlled Multiscale Synthesis of Porous Coordination Polymer in Nano/Micro Regimes
Stéphane Diring;Shuhei Furukawa;Yohei Takashima;Takaaki Tsuruoka.
Chemistry of Materials (2010)
Application of metal and metal oxide [email protected]
Paolo Falcaro;Raffaele Ricco;Amirali Yazdi;Inhar Imaz.
Coordination Chemistry Reviews (2016)
Shape-Memory Nanopores Induced in Coordination Frameworks by Crystal Downsizing
Yoko Sakata;Shuhei Furukawa;Mio Kondo;Kenji Hirai.
Two-dimensional porous molecular networks of dehydrobenzoannulene derivatives via alkyl chain interdigitation.
Kazukuni Tahara;Shuhei Furukawa;Hiroshi Uji-I;Tsutomu Uchino.
Journal of the American Chemical Society (2006)
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