Newspaper

  1. The Nikkei Newspaper January 12th, 2024 (page 16): "Development of highest performance solid refrigerant"
  2. Science Newspaper January 12th, 2024 (page 1): "World's highest cooling performance solid refrigerant developed by the University of Tokyo and Aisin"
  3. The Nikkei Newspaper Online January 11th, 2024: "The University of Tokyo and Aisin develop solid refrigerant with world's largest cooling temperature"
  4. Akahata December 28th, 2023 (page 12): “World's highest cooling performance solid refrigerant successfully developed by the University of Tokyo and Aisin”
  5. Chunichi Newspaper December 28th, 2023 (page 6): “The strongest solid refrigerant that cools you down developed by Aisin and the University of Tokyo”
  6. Nikkan Kogyo Newspaper December 28th, 2023 (page 6): “The University of Tokyo and Aisin develop high-performance "solid refrigerant" to counter greenhouse gases”
  7. Japan Automotive Daily December 28th, 2023 (page 1): “Development of high-performance refrigerants that do not cause global warming”
  8. Mynavi News November 13th, 2023: “JST decides new research topics for 2023 for the Strategic Creative Research Promotion Project”
  9. The Electric Daily News November 8th, 2023: “JST selects research support targets for FY23/28 projects including high-performance heat storage materials”
  10. Paint Notification July 27th, 2023: “Information dissemination in various forms Japan Painting Technology Association”
  11. Osaka Yomiuri Newspaper June 24th, 2023: “Phrase June 24th”
  12. Mainichi Newspaper June 16th, 2023: “Female Faculty of Science: Statement by the Deans of Science at 10 National Universities to Collaborate to Increase the Ratio of Female Faculty of Science”
  13. Paint Notification June 7th, 2023: “Japan Painting Technology Association”
  14. Mainichi Newspaper June 4th, 2023: “More women in the Faculty of Science: Deans of 10 national universities, including Osaka University, make a statement sharing successful initiatives and career information”
  15. Science Newspaper June 2nd, 2023: “Faculty of Science from 10 national universities announce joint statement addressing issues of gender balance”
  16. Asahi Newspaper May 26th, 2023: “10 national universities offer portal site to create an environment where women can learn in science faculties with few women”
  17. Business Insider Japan PREMIUM May 26th, 2023: “Faculty of Science at 10 national universities nationwide, including the University of Tokyo and Kyoto University, issue a joint statement aiming to achieve gender balance”
  18. Jiji Press News May 25th, 2023: “Collaboration to improve female student ratio: Science deans of 10 national universities”
  19. Chemical Daily Newspaper November 11th, 2022 (page 8): "Development of thin absorbers for the millimeter wave band"
  20. Science Newspaper September 17th, 2021 (page 1): "Accepted projects for "Support for Pioneering Research Initiated by the Next Generation" of JST"
  21. Sicence Newspaper March 5th, 2021 (page 1): "Solid state phase transition by propagation of strain wave of light"
  22. The Nikkei Newspaper Online February 23rd, 2021: "Discovery of solid state phase transition by propagation of strain wave of light"
  23. The Economist December 19th, 2020 (page 120): "Re-record, not fade away"
  24. Nikkei Business Daily Newspaper November 20th, 2020 (page 6): "Magnetic recording with millimeter waves -- 30 times the capacity"
  25. Chemical Daily Newspaper October 9th, 2020 (page 1): "The University of Tokyo, Fujifilm, etc.: Improving recording density with millimeter waves, expecting a magnetic method for 5G and beyond"
  26. Science Newspaper October 16th, 2020 (page 1): "New Magnetic Recording Method from Japan "Promising for the Beyond 5G Era" --Realization of Focused Millimeter Wave Assisted Magnetic Recording"
  27. TV Asahi August 2nd, 2020: "A miracle material that will change the world! Long-term heat storage ceramics" (Sunday Live!!)
  28. The Nikkei Newspaper August 10th, 2020 (page 9): "The University of Tokyo: Ceramics for storing waste heat"
  29. Tokyo Newspaper July 26th, 2020 (page 12): "Heat-Storage Ceramics"
  30. Chunichi Newspaper July 27th, 2020 (page 8): "Ceramics that conserve heat"
  31. Nikkan Kogyo Newspaper July 2nd, 2020 (page 19): "Ceramics that can store low-temperature waste heat for a long time"
  32. Chemical Daily Newspaper July 3rd, 2020 (page 7): "Development of long-term heat storage cellars using phase transition materials"
  33. The Nikkei Newspaper Online July 2nd, 2020: "Research Group of The University of Tokyo Succeeds in Developing Heat Storage Ceramics Capable of Storing Waste Heat of Hydrothermal Water for Long Term"
  34. Science Newspaper July 10th, 2020 (page 1): "Development of New Material Long-Term Heat Storage Ceramics to Permanently Store Discarded Hydrothermal Waste Heat"
  35. Denki Shimbun July 2nd, 2020 (page 2): "Development of Heat Storage Material for Reuse of Waste Heat from Power Plants"
  36. Zaikei Newspaper July 3rd, 2020 (page 11): "Effective Use of Energy with Ceramics to Store Waste Heat from Power Plants"
  37. The Nikkei Newspaper March 23rd, 2020 (page 11): "Research Group of The University of Tokyo: A material that slows down the speed of ion movement with light"
  38. Chemical Daily Newspaper March 17th, 2020 (page 1): "The University of Tokyo Group Discovers Photoswitching superionic conductor"
  39. Science Newspaper March 27th, 2020 (page 1): "The University of Tokyo group discovers world's first superionic conductor, which exhibits photo-switching effect"
  40. Akahata March 23rd, 2020 (page 12): "Professor Ohkoshi and colleagues at the University of Tokyo discover the world's first material whose ionic conductivity changes with light"
  41. Optronics Online March 17th, 2020: "Research Group of the University of Tokyo discovers superionic conductor capable of photoswitching"
  42. EETimes Japan March 25th, 2020: "Discovery of Superionic Conductors Exhibiting Photoswitching Effect"
  43. Chemical Daily Newspaper February 12th, 2020 (page 1): "Professor Shinichi Ohkoshi of the University of Tokyo Receives Humboldt Prize for Creation of New Materials Focusing on Phase Transition Phenomena"
  44. Science Newspaper January 10th, 2020 (page 1): "Humboldt Prize awarded to Professor Ohkoshi of the University of Tokyo for discovery of new magnetic materials"
  45. Jiji Press December 18th, 2019: "Professor Ohkoshi (The University of Tokyo) wins Humboldt Prize from Germany for creation of multifunctional new material"
  46. MRS Bulletin News December 4th, 2019: "Heat-storage ceramic releases stored heat energy at low pressure"
  47. Nikkei Business Daily Newspaper November 22nd, 2019 (page 6): "Development of ceramics that store and release heat"
  48. Science Newspaper October 11th, 2019 (page 4): "The University of Tokyo Group Develops Heat Storage Material for Automobiles that Instantly Releases Heat under Weak Pressure"
  49. Nikkan Kogyo Newspaper September 19th, 2019 (page 29): "Research Group of The University of Tokyo Develops Thermal Storage Material that Instantly Dissipates Heat at Low Pressure"
  50. Chemical Daily Newspaper September 19th, 2019 (page 1): "The University of Tokyo and University of Tsukuba: Heat storage material that instantly releases heat under weak pressure"
  51. The Nikkei Newspaper Online September 18th, 2019: "Research Group of The University of Tokyo Succeeds in Developing Heat Storage Ceramics for Automotive Applications"
  52. Science Newspaper January 25th, 2019 (page 1): "New Magnetic Tape Recording Method Using Epsilon Iron Oxide Magnetic Nanoparticles / First Observation of Light Assisted Magnetization Reversal"
  53. Nikkei Business Daily Newspaper January 21st, 2019 (page 6): "Recording on magnetic tape with light/ The University of Tokyo succeeds making writing speed 50-times faster"
  54. The Nikkei Newspaper Online January 16th, 2019: "The University of Tokyo and Osaka University succeeded in observing photo-assisted magnetization reversal of magnetic tape and ultrafast magnetization response by terahertz light"
  55. Nikkei Business Daily Newspaper December 11th, 2018 (page 4): Prof. Ohkoshi gave a lecture in BM symposium 2018
  56. June 12th, 2018: Prof. Ohkoshi was awarded by Rennes, France
  57. Nikkei Business Daily Newspaper March 16th, 2018 (page 10): "High density magnetic tape recording method using epsilon iron oxide"
  58. Nikkei Business Daily Newspaper January 25th, 2018 (page 5): "Prediction of crystal structure by calculation, effective excavation of thermal storage materials"
  59. Chemical Daily Newspaper January 15th, 2018 (page 1): "Prediction of phase transition phenomena of solid materials by computational science"
  60. Science Newspaper January 26th, 2018 (page 4): "Theoretical prediction of phase transition material is possible by computer"
  61. The Nikkei Newspaper Online January 11th, 2018: "The phase transition phenomenon with solid material is theoretically predictable by computer calculation"
  62. First time resolved Pilot Experiment by SwissFEL is performed to observe semiconductor to metal transition using λ-Ti3O5 provided from Ohkoshi laboratory.
  63. NanotechJapan Bulletin vol. 10, No. 6. "Research and development of high-performance hard ferrite magnet "ε iron oxide" -The technology supporting IoT society through academic-industry collaboration-"
  64. Nikkei Business Daily Newspaper September 26th, 2017 (page 8): "Improved performance of ferrite magnets, higher coercive field"
  65. Science Newspaper September 22nd, 2017 (page 1): "The largest coercive field (35 kOe) ever at room temperature on ferrite magnets"
  66. The Nikkei Newspaper Online September 11th, 2017: "Realizing the largest coercive field ever on ferrite magnets"
  67. Chemical Daily Newspaper September 21st, 2017 (page 10): "The largest coercive field on ferrite magnets"
  68. Nikkei Business Daily Newspaper September 14th, 2017 (page 8): "Cesium detection with terahertz light, Univ. of Tokyo"
  69. Science Newspaper September 8th, 2017 (page 4): "Development of cesium ion detection method without contact using terahertz light"
  70. Chemical Daily Newspaper August 29th, 2017 (page 6): "Using terahertz light for long distance cesium detection"
  71. Nikkan Kogyo Newspaper August 25th, 2017 (page 27): "Detection of long-distance radioactive cesium with terahertz light"
  72. The Nikkei Newspaper Online August 24th, 2017: "Development of long range cesium detection method using terahertz light"
  73. NanotechJapan Bulletin vol. 10, No. 3. "Downsizing of titanium oxide to nanometer size -Development of heat-storage ceramics conserving accumulated heat energy-"
  74. Nikkan Kogyo Newspaper May 30th, 2017: "The Mukai Awards is given to Prof. Ohkoshi."
  75. Kanagawa Newspaper May 30, 2017: "Prof. Ohkoshi received the 28th Mukai Awards."
  76. Science Newspaper March 10, 2017 (page 8): "High performance hard ferrite magnet "ε-iron oxide" from basic research to the production for the market"
  77. Nikkan Kogyo Newspaper February 17, 2017 (page 3): "Nano tech Awards 2017, The Academic-industrial Allliance Award"
  78. EETimes February 17, 2017: "Nanosized iron oxide, millimeter wave absorption above 100 GHz"
  79. Chemical Daily Newspaper February 17, 2017 (page 8): "Focusing on commercialization of nanomaterial, epsiron-iron oxide, expected for controlling millimeter wave"
  80. February 17, 2017: nano tech 2017 Special Feature "High performance hard ferrite, ε-Fe2O3 nanosized-iron oxide supporting IoT technology (in Japanese)"
  81. Dalton Trans., 45, 19249 (2016). was highlighted at the Cover picture.
  82. HP of Embassy of France in Japan: an article appeared about the establishment of a new International Associated Laboratory "IM-LED (Impacting Materials with Light and Electric Fields and Watching Real Time Dynamics)".
  83. Nikkan Kogyo Newspaper October 6, 2016 (page 3) Celebration Comments for Nobel Prize in Chemistry Winners
  84. Chunichi Newspaper September 15, 2016 (page 2): "Colloid solution: Keeping jewel-like solution after 90 years"
  85. Chunichi Newspaper September 8, 2016 (page 2): "Prof. Kikunae Ikeda's evaporating dish: Discovery of Umami from sea weed"
  86. Cryst. Eng. Comm., 18, 1495 (2016) "The solvent effect on the structural and magnetic features of bidentate ligand-capped {CoII9[WV(CN)8]6} single-molecule magnets", was highlighted at the Cover picture.
  87. Tokyo Newspaper September 5, 2016 (page 4): "The science heritage: Chemistry Edition (2)"
  88. Tokyo Newspaper October 29, 2016 (page 4): "The science heritage: Chemistry Edition (1)"
  89. Science Newspaper, Japan September 2, 2016 (page 4): "High-performance magnetic tape, Epsilon-iron oxide used in a magnetic layer, realized by Univ. of Tokyo"
  90. Nikkan Kogyo Newspaper August 25, 2016 (page 21): "Nano-sized magnetic material, High capacity magnetic tape, developped by Univ. of Tokyo"
  91. Chemical Daily Newspaper August 25, 2016 (page 5): "Next generation magnetic tape, A noise of one in ten, developped by Univ. of Tokyo"
  92. Science Newspaper, Japan June 24, 2016 (page 6): "Epsilon-iron oxide, developped by Prof. Ohkoshi, Univ. of Tokyo"
  93. "Structural anisotropy of cyanido-bridged {CoII9WV6} single-molecule magnets induced by bidentate ligands: towards the rational enhancement of energy barrier"; Chem. Commun., 52, 4772 (2016) was highlighted at the Back Cover Picture.
  94. Science Newspaper, Japan June 24, 2016 (page 4): "Univ. of Tokyo group, development of ferrite bar magnet"
  95. Nikkei Business Daily Newspaper June 15, 2016 (page12): "Development of magnetic force microscopy probe for measurement under strong magnetic field"
  96. EE Times June 13, 2016: "Development of rustproof bar magnet which withstands strong magnetic field and electric current"
  97. Yahoo! News June 13, 2016: "Development of rustproof bar magnet which withstands strong magnetic field and electric current"
  98. Science Newspaper, Japan May 20, 2016 (page 4): "High ammonia adsorption ability in blue pigment"
  99. Chemical Daily Newspaper May 13, 2016 (page 3): "Efficient ammonia adsorption of Prussian blue, targeting for practical use"
  100. Science Newspaper, Japan March 25, 2016 (page 1): "Promising for wide range of application, heat storage ceramics"
  101. Science Newspaper, Japan March 18, 2016 (page 1): "Smallest particle size hard ferrite magnet, promising for next-generation magnetic recording media and millimeter-wave absorber"
  102. Kinzoku Jihyo November 5, 2015 (page 4): "Univ. of Tokyo, smallest particle size hard ferrite magnet, discovery of novel nano-material for magnetic recording tape"
  103. Minaminihon Broadcasting November 18, 2015: Prof. Ohkoshi's interview was broadcasted in the program.
  104. Chemical Daily Newspaper October 7, 2015 (page 1): "Univ. of Tokyo, development of smallest particle size magnetic ferrite with high coercive field"
  105. Nikkan Kogyo Newspaper October 7, 2015 (page35): "Univ. of Tokyo, development of single-nanometer size magnetic particle, iron oxide magnetic particle with low cost and suitable for mass production"
  106. Nature Communications, 6, 7037 (2015) was hilighted in Nature Japan "Focused article";.
  107. BS-Fuji TV August 28&30, 2015: Prof. Ohkoshi's interview was broadcasted in the program.
  108. Yomiuri Newspaper May 21, 2015 (page 9): "Discovery of prolonged heat storage ceramics"
  109. Chemical Daily Newspaper May 26, 2015 (page 3): "Univ. of Tokyo, discovery of "heat storage ceramics", heat energy storage for a prolonged period"
  110. Nikkei Business Daily Newspaper May 13, 2015 (page10): "eat storable ceramics, Univ. of Tokyo, promising for the reuse of waste heat"
  111. Nikkan Kogyo Newspaper May 13, 2015 (page19): "Univ. of Tokyo, Discovery of heat storage ceramics which can store heat energy for a prolonged period"
  112. Chemical Daily Newspaper May 13, 2015 (page 4): "Univ. of Tokyo and Univ. of Tsukuba, Discovery of heat storage ceramics, expected application for solar-thermal power system"
  113. Kensetsu-Kogyo Newspaper May 14, 2015: "Discovery of heat storable ceramics, promising for solar-thermal power system, Univ. of Tokyo, etc."
  114. Science Newspaper, Japan May 29, 2015 (page 1): "Discovery of "heat storage ceramics" which can store heat energy for a prolonged period"
  115. Kankyo Shimbun May 20, 2015 (page 2): "Heat energy storage for a prolonged period, discovery of heat storage ceramics"
  116. Denki Shimbun May 13, 2015 (page 4): "Univ. of Tokyo and Univ. of Tsukuba, Discovery of a material which can store heat energy for a prolonged period"
  117. Kosei-Fukushi (Jiji press) June 12, 2015: "Discovery of heat storable ceramics"
  118. New Energy News June 1, 2015:"Univ. of Tokyo, promising material for solar-thermal power system, Presentation of novel concept of 'Heat storage ceramics'"
  119. Jiji press May 12, 2015: "Discovery of heat storable ceramics, promising for solar-thermal power system, Univ. of Tokyo"
  120. Yahoo! News May 12, 2015: "Discovery of heat storable ceramics, Univ. of Tokyo, etc."など
  121. Wall Street Journal Japan May 12, 2015: "Discovery of heat storable ceramics, Univ. of Tokyo"
  122. Nikkei Electronics July 2015: "Heat storage material which does not emit heat energy without pressure application, Univ. of Tokyo -also promising for resistance random access memory and optical recording memory-"
  123. WinWing "Heat energy storage for a prolonged period! Dreamy novel material 'Heat storage ceramics'"
  124. Nikkei Technology June 1, 2015: "Heat storage material which does not emit heat energy without pressure application, Univ. of Tokyo"
  125. JST Interview Prof. Ohkoshi's interview was appeared in the book, "Inteview of Japanese top-level researchers". The book was published in 2014.
  126. Keyman's net Jan. 8, 2014: "What is 'Photo-switching magnet' for ultrahigh recording density?";
  127. Newton (Japan) Feb. 15, 2014:"Hot mateiral, discovery of new titanium oxide";
  128. BS-TBS TV July 27, 2014 Prof. Ohkoshi's interview was broadcasted in the program.
  129. Nikkan Kogyo Newspaper July 28, 2014: "For safety large capacity data transformation: Electromagnetic wave absorber from iron rust";
  130. TBS Radio Prof. Ohkoshi's interview was broadcasted in the program. The programs were broadcasted every Thursday night of March 2014.
  131. Nature Pulishing Index Prof. Ohkoshi's article appeared in the magazine.
  132. TBS TV (Tokyo Broadcasting System Television) Ohkoshi laboratory was introduced in a TV program in the middle of January.
  133. Nature Photonics "interview"; (8, 80, 2014) Prof. Ohkoshi was interviewed.
  134. Nature Photonics, 8, 65 (2014) "90-degree optical switching of output second-harmonic light in chiral photomagnet", was highlighted at the Cover picture.
  135. The Nikkei Newspaper December 3, 2013(page 14)"Effective for huge capacity, development of magnetic material"
  136. The Nikkei Business Daily Newspaper December 3, 2013(page 10)"Magnetic material for huge data storage, Univ. Tokyo"
  137. The Chemical Daily Newspaper November 27, 2013(page 17)"Reversible switching of magentization, Univ. Tokyo, development of photomagnet"
  138. Science Newspaper, Japan December 6, 2013 (page 4) "90-degree switching of polarization, synthesis of chiral photomagnet, Prof. Ohkoshi's group"
  139. Yahoo!News November 25, 2013 "Univ. Tokyo, discovery of photomagnet which switches polarization by 90-degree"
  140. "Hard magnetic ferrite: ε-Fe2O3", Bull. Chem. Soc. Jpn., 86, 897-907 (2013) was highlighted at the Cover picture.
  141. Nature Communications, 3, 1035 (2012) was highlighted in Nature Materials "Research highlights" (11, 910, 2012).
  142. Nature Communications, 3, 1035 (2012) was selected as "highlight article" in Nature Japan (2012.9.4) .
  143. The Nikkei Business Daily Newspaper September 6, 2012: “Coercivity comparable to rare earth magnet, high performance ferrite magnet by Univ. Tokyo"
  144. Nikkan Kogyo Newspaper September 5, 2012: “High performance ferrite magnet developed by Univ. Tokyo, Application for millimetre wave absorber ”
  145. Science Newspaper, Japan September 14, 2012: “Realization of Gigantic coercivity, high performance ferrite magnet developed by Univ. Tokyo, Prof. Ohkoshi et al”
  146. Yahoo! Japan September 5, 2012: “ Univ. Tokyo, development of high performance ferrite magnet”
  147. “Light-induced magnetization with a high Curie temperature and a large coercive field in a Co-W bimetallic assembly”, Adv. Funct. Mater., 20, 2089-2093 (2012) was highlighted at the Back Cover picture.
  148. “A cyano-bridged vanadium-niobium bimetal assembly exhibiting a high Curie temperature of 210 K”, Eur. J. Inorg. Chem., 2649-2652 (2012) was highlighted at the Cover picture.
  149. The Nikkei Newspaper January 12(page 11)''Univ Tokyo; Ninefold larger than optical disks; A new strong magnetic material "
  150. Newton (Japan) March, 2012 (page 4)"Novel high-functionality metal oxide nanoparticle"
  151. Solid State Physics (Japan) January, 2012: ''Photomagnet'' Cover picture
  152. Chemistry Views2012.1.20 "Hot Attraction in Bimetals"
  153. The Nikkei Newspaper June 6, 2011 (page 11) “Univ. Tokyo; light-induced magnet”
  154. The Nikkei Business Daily Newspaper June 8, 2011 (page 8): “Univ. Tokyo, observation of new magnetic material; changeing to magnet with light-irradiation”
  155. Nikkan Kogyo Newspaper June 6, 2011 (page 15): “Univ. Tokyo, observation of new material; transition to magnet with light-irradiation”
  156. The Chemical Daily Newspaper June 6, 2011 (page 5) “The research group in Univ. Tokyo found light-induced magnet: transition to ferromagnet with irradiation to a iron ion”
  157. Yahoo! Japan June 7, 2011: “ Univ. Tokyo, observation of light-induced spin-crossover magnet”
  158. Dalton Trans., 40, 6825-6833 (2011).“Novel magnetic functionalities of Prussian blue analogs” (Hot article)
  159. Nature Materials “commentary” (E.Nakamura, K.Sato,10, 158, 2011)
    "Managing the scarcity of chemical elements", Nature Chemistry, 2, 539 (2010).
  160. Weekly Economist (Japan) 2011.2.8 (page36): “Economist Report (The topic about λ-Ti3O5 was adopted.)”
  161. "ε-Fe2O3: An advanced nanomaterial exhibiting giant coercive field, millimeter-wave ferromagnetic resonance, and magnetoelectric coupling", Chem. Mater, 22, 6483-6505 (2010) was highlighted at the Cover picture of Vol. 22, Isue 24.
  162. Nature Publishing Group (NPG) Asia Materials (2010.8.9)
    “Proton conductivity: Ordering the water”,J. Am. Chem. Soc., 132, 6620 (2010)
  163. Sankei Newspaper October 25, 2010 (page 9): “Open lecture (School of Science, The university of Tokyo), November 7, 2010”
  164. Science News (Japan), Sep. 22, 2010 (page 2): “A comment as a member of advisory committee for the science part of Japanese national budget”
  165. Chemistry (Japan) (Vol.65, No.10, p30, 2010) “Metal oxides which shows photo-induced metal-semiconductor phase transition” (highlighted at the front cover
  166. Chemistry Today (Japan) (Vol.9, p12, 2010) “Titanium oxides for high-density optical media”
  167. O Plus E (Vol.10, p1137, 2010)“Monthly one attractive picture: Discovery of metal oxide which shows photo-induced metal-semiconductor phase transition”
  168. à la carte topic of Univ. Tokyo “What is the "School of Science?"” (p243, 2010; The University of Tokyo Newspaper)
  169. The University of Tokyo Newspaper 2010.6.1(page 2)“Discovery of metal oxide which shows photo-induced phase transition”
  170. EE Times Japan 2010.7.30: “Rapid phase transition by the photo-irradiation”
  171. Keyman's net (Recruit Co., LTD) 2010.7.21: “Next-generation optical strage materials”
  172. Newton (Japanese scientific magnzine), Vol.8, 2010 (page13): “Optical strage materials beyond Blu-ray Disc”
  173. Scientific American (Japanese edition), Vol.8, 2010 (page 20): “Metal-semiconductor transition by the light”
  174. Naturejapanjobs (Japanese) June 25, 2010 “Metal-semiconductor transition by the light at room tempearture”
  175. Nature Chemistry, "News & Views" (Vol. 2, p517, 2010.)
    "Materials chemistry: Illuminated oxides"     , Nature Chemistry, 2, 539 (2010).
  176. TBS TV (Tokyo Broadcasting System Television)May 25, 2010: “News Ranking 1st: Univ. Tokyo, New material for optical strage media” (broadcasted at 5:15-)
  177. NHK (Japan Broadcasting Corporation) news, May 24, 2010: “New materials, prospective for economical discs ”
    (broadcasted on TV and Radio)
  178. AFP (Agence France-Presse) delivered to 150 countries in the world: “Japanese team discovers 'super disc' material” (May 25, 2010). This article appeared on Le Figaro (FRA), ABC(AUS), Deutsche-Welle(DEU), Xinhua(CHN), Taiwan Daily(TWN), Yonhap(KOR), Ria Novosti(RUS), Yahoo!(USA, AUS, CAN, PHL, MYS), and so on.
  179. The Japan Times, May 25, 2010(page 9):“Superdisc material discovered”
  180. Yomiuri Newspaper, May 25, 2010 (page 2):“Inexpensive, fast, energy saving; for optical strage media”
  181. Mainichi Newspaper, May 24, 2010 (page 2):“New material for optical strage media”
  182. The Nikkei Newspaper May 24, 2010 (page 13):“Black↔White, color change by the light”
  183. Nikkan Kogyo Newspaper, May 24, 2010 (page 20): “Metal-semiconductor transition by the light”
  184. Sankei Newspaper June 21, 2010 (page 12): “New material for high-density optical strage”
  185. Science News (Japan), Feb. 4, 2010 (page 4): “Discovery of an optically induced ON-OFF metal oxide”
  186. The Chemical Daily Newspaper, May 24, 2010 (page 5): “Candidate for next-generation ultra-high density optical strage material: new metal oxide”
  187. Yahoo! Japan May 24, 2010: “New material for optical strage media”(appeared on the top Web sites (topics)).
  188. Yomiuri Online, May 25, 2010: “High-performance optical strage material composed of titanium oxide: observed by the Univ. of Tokyo”(appeared on the top Web sites).
  189. Mainichi.jp May 24, 2010: “Optical strage media: New material”(The most frequently accessed topic on 24th in Mainichi.jp.)
  190. Nikkan Kogyo Newspaper Business Line, May 24, 2010: “Observation of metal-semiconductor phase transition material (Univ. Tokyo)”
  191. MSN Sankei News, June 21, 2010: “New material for high-density optical strage”
  192. The Mainichi Daily News, May 24, 2010: “Researchers discover compound that could hold 200 times more data than Blu-ray discs”
  193. Chemistry World, May 23, 2010: “Light sparks new approach to data storage”
  194. Nature Chemistry, "News & Views" (Vol. 2, p10, 2010.)
    "Electric-field-induced charge-transfer phase transition" J. Am. Chem. Soc., 131, 15049 (2009).
  195. Kahoku Newspaper, Dec. 28, 2009 (page 5): "The four scientists received the IBM Japan Science Prize"
  196. Shizuoka Newspaper, Nov. 30, 2009 (page 6): "The four young scientists received the IBM Japan Science Prize"
  197. Mainichi Newspaper, Nov. 24, 2009 (page 25): "The IBM Japan Science Prize"
  198. The Chemical Daily Newspaper, Nov. 18, 2009 (page 5): "The IBM Japan Science Prize"
  199. Nikkan Kogyo Newspaper, Nov. 11, 2009 (page 3): "The IBM Japan Science Prize"
  200. The Nikkei Business Daily Newspaper, Nov. 11, 2009 (page 11): "The IBM Japan Science Prize
  201. Mainichi.jp, Nov. 24, 2009: "The four scientists received the IBM Japan Science Prize"
  202. BBC NEWS, Sept. 30, 2009: “Anti-wifi paint offers security". Successively, this article appeared on several hundreds of Web sites in the world (Broadband, YAHOO!, TECHWORLD, ZDNet, PCWorld, InfoWorld, and other web news and images in various countries in the world, etc.)
  203. BBC, Sept. 20, 2009: The program of “Anti-Wifi paint" (millimeterwave absorption paint for high-speed wireless communications) was broadcast on the radio. You can preview it on the web site of BBC World Service.
  204. Prof. Ohkoshi was offered a Guest Editor of the Special issue “Multiferroics" on the combined feature title of Materials and IJMS.
  205. The University of Tokyo Newspaper, July 28, 2009: "Stroll in laboratory @ Solid state physics: Creation of the first-ever material one after another"
  206. BBC (British Broadcasting Corporation), July 4, 2009: The director of BBC came to Japan for the radio broadcasting collection. It is scheduled to be broadcast in Europe and US.
  207. Ceramics, "Topics article", May 2009: "Ultra high performance and cheap electromagnetic radiation absorption material"
  208. The Nikkei Business Daily Newspaper, Jan. 21, 2009 (page 11): "The University of Tokyo developed the Millimeterwave absorber which will be available for the next generation communication."
  209. Nikkan Kogyo Newspaper, Jan. 21, 2009 (page 25): "The magnetic material for the high speed wireless communications is developed which absorbs the electromagnetic wave over 180 GHz."
  210. The Chemical Daily Newspaper, Jan. 21, 2009 (page 5): "The University of Tokyo developed the nano iron oxide as an electromagnetic wave absorption material for the high frequency millimeterwave communication."
  211. asahi.com, Jan. 21, 2009: "The University of Tokyo developed the magnetic material for the high speed wireless communications which absorbs the electromagnetic wave over 180 GHz."
  212. New Scientist (UK), Jan. 19, 2009: "Cheap paint could protect against super-fast wireless". This article introduces the research of J. Am. Chem. Soc., 131, 1170 (2009) and the interview with Prof. Ohkoshi.
  213. KAKENHI NEWS, Nov. 2008: "The photo ON-OFF magnet was developed."
  214. JSPS Quarterly 24: “Dr. Shin-ichi Ohkoshi / Design and demonstration of new magnetic properties based on magneto chemistry"
  215. Shukan-Shincho journal, July 3, 2008: "Bulletin board/ Shin-ichi Ohkoshi, Professor of the graduate school of the University of Tokyo"
  216. Kodomo-no-Kagaku (Scientific journal for children), p. 6, July 2008: "The super-high performance photo reversible magnet was developed."
  217. National Museum of Emerging Science and Innovation, deep science, June 2008.
  218. The University of Tokyo Newspaper, June 10, 2009 (front page): "Prof. Ohkoshi developed the photo-reversible magnet."
  219. The University of Tokyo new report (Newspaper), May 15, 2008 (front page): "Prof. Ohkoshi developed the photo-reversible magnet."
  220. Chunichi Newspaper, May 20, 2008 (page 10): "The light ON-OFF magnet"
  221. Tokyo Newspaper, May 20, 2008 (21): "The light ON-OFF magnet"
  222. Asahi Newspaper, May 19, 2008 (page 9): "The photo-swithing magnet"
  223. Nikkan Kogyo Newspaper, May 15, 2008 (21): "The University of Tokyo developed the light-switching magnet which is controlled by the laser colors.""
  224. The Chemical Daily Newspaper, May 8, 2008 (front page): "The University of Tokyo developed the highest performance photo-induced reversible magnet."
  225. The Nikkei Business Daily Newspaper, May 8, 2008 (page 11): "The University of Tokyo developed the cobalt compound which exhibits photo-generated magnetic phase."
  226. The Chemical Daily Newspaper, May 8, 2008 (page 5): "Iron oxide nano magnetic material"
  227. Kyoiku-Gakujutsu Newspaper, Feb. 27, 2008 (page 4): "Prof. Ohkoshi receives Japan Academy Medal."
  228. Japan Academy newsletter, Apr. 14, 2008 (page 6): "The 4th Japan Academy Medal"
  229. Asahi Newspaper, Mar. 17, 2008 (page 31): "Seeker, Prof. Shin-ichi Ohkoshi who tries to explain the electrons from the chemical point of view."
  230. Science News (Japan), Feb. 22, 2008 (page 8): "The five young scientists such as Prof. Shin-ichi Ohkoshi of the magnetochemistry received the Japan Academy Medal."
  231. Yomiuri Newspaper, Feb. 13, 2008 (page 37): "The five scientists received the 4th Japan Academy Medal."
  232. Asahi Newspaper, Feb. 13, 2008 (page 33): "The Japan Academy Medal"
  233. Nikkan Kogyo Newspaper, Feb. 13, 2008 (page 24): "They five people such as Prof. Ohkoshi received this year’s Japan Academy Medal."
  234. Sankei Newspaper, Feb. 18, 2008 (page 9): "Five winners of the Japan Academy Medal were determined. "
  235. "Charge transfer-induced spin transition and photo-reversible magnetism in a cyano-bridged cobalt-tungstate bimetallic assembly”, Chem. Mater., 20, 3048 (2008) was highlighted at the Cover picture of the May and June issues of this journal.
  236. Science News (Japan), Jan. 11, 2008 (page 6): "Japan Society for the Promotion of Science Prize (Prof. Ohkoshi)"
  237. Yomiuri Newspaper, Jan. 7, 2008 (page 19): "Japan Society for the Promotion of Science Prize"
  238. Chemistry Today (Japan), Feb. 2008: "New magnetic materials made of the metal complexes"
  239. Ceramics, Feb. 2008: "Topics article: The high performance magnetic material absorbing the millimeterwave."
  240. Mainichi Newspaper, Nov. 4, 2007 (page 25): "Prof. Ohkoshi et al. of the University of Tokyo developed the millimeterwave absorber.
  241. Asahi Newspaper, Oct. 26, 2007 (page 37): "Cornerstone of the next-generation communications: the new material blocking the electromagnetic wave.""
  242. The Nikkei Business Daily Newspaper, Oct. 26, 2007 (page 8): "The electromagnetic wave absorber over 150 GHz""
  243. Nikkan Kogyo Newspaper, Oct. 26, 2007 (page 26): "The absorption of millimeterwave of 150 GHz"
  244. Mainichi.jp, Nov. 4, 2007: "Prof. Ohkoshi et al. of the University of Tokyo developed the new material absorbing the millimeterwave."
  245. The University of Tokyo Newspaper, Nov. 20, 2007: "Prof. Ohkoshi etc. developed the 150 GHz electromagnetic wave absorber."
  246. A millimeter-wave absorber based on gallium-substituted ε-iron oxide nanomagnets", Angew. Chem. Int. Ed., 46, 8392 (2007) was highlighted at the Inside Cover of the issue on Nov. 12, 2007.
  247. "Coexistence of ferroelectricity and ferromagnetism in RbMnFe Prussian blue analogs", Angew. Chem. Int. Ed., 46, 3238 (2007) was highlighted in the frontispiece of the issue on Apr. 27, 2007.
  248. Science News (Japan), Apr. 2005: "The Young Scientists’ Prize by the Commendation for Science and Technology by the Minister of Education,Culture, Sports, Science and Technology (Prof. Ohkoshi)"
  249. S&T Today, p. 5, Jan. 2005: "Topics: The exotic material whose magnetic property changes depending on the humidity was synthesized."
  250. The Japan Journal, April vol. 1, No. 12. 31 (2005) “The Humidity-Responsive Magnet
  251. Popular Science, No. 6, 97 (2005): "33 people who change the futurity: The imagination makes the world go around."
  252. The University of Tokyo newspaper, Jan. 18, 2005: "The material exhibiting humidity-induced magnetic pole inversion was synthesized."
  253. Nikkei Nano Business, "The important paper in the world", Jan. 17, 2005: S. Ohkoshi, et. al., Nature Materials, 3, 857 (2004).
  254. MSJ technological information, 6th, 6.01 on Dec. 3, 2004: "Giant coercive field of ε(epsilon)-iron oxide Nano rod "
  255. Chemistry and chemical industry, 58(2), 138 (2005): "News"
  256. The Nikkei Newspaper, Nov. 22, 2004 (page 19): "The University of Tokyo discovered the metal compound exhibiting humidity-induced magnetic pole inversion."
  257. The Nikkei Business Daily Newspaper, Nov. 22, 2004 (page 7): "The University of Tokyo discovered the metal compound exhibiting humidity-induced magnetic pole inversion."
  258. Nikkan Kogyo Newspaper, Nov. 22, 2004 (page 21): "The University of Tokyo discovered the exotic material exhibiting humidity-induced reversible variations in the magnetic properties."
  259. The Chemical Daily Newspaper, Nov. 22, 2004 (page 8): "The University of Tokyo group discovered the cyano-bridged metal complexes exhibiting humidity-induced reversible variations in the magnetic properties. "
  260. Science News (Japan), Nov. 26, 2004 (front page)
  261. Nikkei Net Interactive, Nov.22,(2004): “Tokyo univ. research group discovers unique metallic compound”
  262. Chemistry and chemical industry, Mar., 2003: "Explanation of News: The exotic photomagnetic material exhibiting the time dependent photo-induced magnetic phase"
  263. Chemistry and chemical industry, May, 2002: "News: Development of photomagnetic material exhibiting the time dependent photo-induced magnetic phase"
  264. The Chemical Daily Newspaper, Feb. 25, 2002 (page 9): "Time dependent photo-induced magnetic phase"
  265. Technical Insights, Oct. 27, 2000: "Advanced coatings and Surface technology: Contribution to magnetooptics: Transparent and colored magnetic thin films."
  266. Science News (Japan), Mar. 31, 2000 (page 4): "Japan Chemical Society Prize for Young Chemist (Prof. Ohkoshi) "
  267. Niigata Nippo Newspaper, June 15, 1999 (page 4 evening newspaper): "Success in synthesis of the magnets as designed theoretically"
  268. Kochi Newspaper, May 31, 1999 (page 13): "The magnetic pole turns about twice."
  269. Oita Godo Newspaper, June 7, 1999 (page 3 evening newspaper): "N pole and S pole turn about."
  270. Ehime Newspaper, June 4, 1999 (page 19): "Magnetic pole reverses turns about twice."
  271. To-o Nippo Newspaper, June 14, 1999 (page 6): "The magnetic pole turns about twice with changing temperature."
  272. Akita Sakigake Shimpo Newspaper, June 16, 1999 (page 4): "The magnetic pole turns about round and round twice."
  273. Minami-Nippon Newspaper, June 17, 1999 (page 7 evening newspaper) "The magnetic pole turns about with changing temperature. "
  274. Nature, 399, 21, 1999: "News and Views: The magnetic turnabout"
  275. Science News (USA), 155, 159 (1999): "Making magnetism flip twice, by design
  276. Physical Review Focus, 3 (8), (1999): "Fickle Magnet Switches Poles Twice"
  277. Chemistry and chemical industry, 51, 1456 (1998): "News"
  278. C&EN, June 8, 1998, "Science/ technology concentrates: Magnetic films show off their colors"
  279. JACS, May, 1998: "Hot articles: Transparent and Colored Magnetic Thin Films: (FeIIxCrII1-x)1.5[CrIII(CN)6]"
  280. JETRO, Feburary, 16, 1997.
  281. Nihon Kogyo Newspaper, Nov. 6, 1997 (page 7): "The magnetic pole flips by the photo irradiation."
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