証券コード 4901 Strategy for Functional Material Development in FUJIFILM - Global competency strategy for business innovation in Functional Material Industry - Sep. 24, 2013 FUJIFILM Corporation Development Strategy of Functional Materials in Japan Success of Japanese firms in functional materials attracts attentions. FUJIFILM Corp. was introduced as an example of the Functional Materials Firms. In Japan, focus on users’ needs rather than gee-whiz technology is the key to success for ADVANCED MATERIALS FIRMS 2 Tremblay, J-F., C & En, 91(23), 2013, 10-14 Wide variety of technologies construct color films Cross section of Fujicolor HR-400 After development Color image layers Undeveloped Total thickness :~20μm Layer number :16~20 layers Layer thickness :~1.2 μm Base film Precisely designed AgX grains act as photo-sensor Over 100 organic compounds for excellent image Color film consists of 20 layers precisely coated on 180micron base film Many sophisticated technologies have been developed to attain high speed image capturing and fine image reproduction. 3 Research direction of toward new Business Portfolio To promote growth by contributing to the quality of life of the people of the world Highly Functional Materials Flat panel display materials Inkjet Ink Fine Chemicals Recording Media Photo resist New Functional Films (environmental, energy, electronics) Utilization of Chemical technologies Imaging & Printing Document Healthcare Optical Devices Skincare, Supplement Graphic arts Electronic Imaging Medical Systems Diagnostic Imaging External Diagnosis Imaging Implementation of Digital Technology and IT Inorganic Chemistry Optics Imaging Medicines Applying to Life Science Film formation and processing Analytical technology Software Organic Chemistry Biochemistry Mechanics and Electronics Fundamental Technologies of the Fujifilm Group Fujifilm’s Challenge to Versatile Functional Materials Photographic technology application Silver halide material utilization Molecular design technology application Optical function design Nano-photonics application Structural function design Industrial IJ System From Precise printing into Material Deposition Life Science & Pharmaceuticals Functional Materials for Human Healthcare Functional film based on photography EXCLEAR R – transparent conductive film To give surface conductivity on transparent film, fine Ag mesh pattern is formed on EXCLEAR using photographic process. 500μm Using light to form Ag mesh pattern, EXCLEAR can provide preferable shape of pattern. R EXCLEAR○ 500μm Flexible Light Emitting Device using EXCLEAR as a transparent sheet electrode 透過率(%) (フィルム単体) Transmittance (%) EXCLEAR exhibits higher conductivity with excellent transparency compared to conventional ITO film. 100 95 90 85 80 EXCLEAR 75 ITO フィルム film 70 1 10 100 Sheet resistance (Ω/□) シート抵抗(Ω/□) 1000 6 LCD consists of many functional films Liquid Crystal Display (LCD) is the most popular device for color monitor Cross-section of LCD panel Anti reflection film Polarizer (polyiodide ion + PVA) Retardation film Polarizing film Adhesive Components of LCD monitor ~200μm Glass substrate LCD panel ~1.2mm LC Cell Light enhancing film Diffuser film ~0.2mm Adhesive LED Light guide ~3.0mm Reflective film ~0.2mm ~400μm ~ 5μm Glass substrate ~400μm ~200μm Polarizing film Retardation film Polarizer (polyiodide ion + PVA) Protective TAC film Core construction of LCD Color filter LC layer R G LC molecule B Alignment layer Transparent electrode TFT 7 R Optical film example for LCD – WV film WV R film widens the viewing angle of LCD With WV film Without WV film 8 Green technology based on metamaterial Nano Silver Pavement (NASIP) Silver Nano-disc ~10nm In thickness 1um 120~150nm in diameter NASIP can selectively reflect infrared light Heat insulation of sunlight Spectral properties 100 Transmittance NASIP on the window 80 Near IR radio wave infrared (heat wave) Outside visible light Room inside [%] 60 40 Visible Reflectance 20 0 300 700 Visible 1100 1500 Infrared 1900 2300 λ [nm] 9 Industrial Applications of Inkjet systems Graphic Jet Press 720 Material Deposition(MD) the World’s First Single-Pass, High-Speed, Large Format Size Inkjet Printing at High Resolutions of 1200 dpi. FPD MEMS Printable Electronics Apply Life science Micro chemical Industrial Inkjet Printer & Head Patterning Functional materials would be needed for Industrial Applications Advantages of IJ : “Deposit materials of needed amount at needed position” Nano-Astaxanthin Application to Skin-care Cosmetics Conventional dispersion Conventional dispersion FUJIFILM Nano dispersion Thermal stability 熱安定性 100 Astalift series ナノ微粒子されたアスタキサンチン(110nm) ● nano-astaxanthin 比較のエマルション製剤(250nm) ● control(250nmφ) タキサンチン油性溶液 ● astaxanthin oilア スsolution 90 80 Astaxanthin ■ Nano ナノアスタキサンチン dispersion ■ Control 比較乳化物 (ave. 250 nmφ) (平均250nmφ) AUC of astaxanthine (a.u.) Remaining Astaxanthine (%) FUJIFILM Nano dispersion Astaxanthin 70 60 50 40 30 20 10 0 elapsed time (day/50 degree c) 0 5 10 15 20 Intake elapsed 摂取後 経 過 時time 間 ((hr) 時間) 25 30 Development Strategy in Pharmaceutical area タンパク質 Protein Low molecule medicine Drug formulation technology ① Active化合物 compound ③ AUC 0-24hrs [μg*hr/ml] 35 Analytical Science Armed antibody drug ② AUC Comparison ① 30 25 20 ② 15 10 5 ③ 0 Commercially Available Molecular design synthesis NOF Corp.'s FF FTD Tech. Formula Proprietary nano-technology FUJIFILM’s Core technologies Collagen application Diagnostic Imaging Bio, BS drug manufacturing Highly reliable manufacturing technology Film, Membrane Sponge Materials for regenerative medicine Hydro gel 1m m RCP Spheroid 12 The future of industry driven by Chemistry Electronic device Drug Life Science Functional materials for Flat panel Display, Smartphone Automobile Airplane Chemistry will continue to play more and more Lightweight materials Small molecule drug, DDS important role Battery materials Regenerative Medicine in the future of industry Food production Water Purification Plant factory Energy Environment Photo voltaic, Photo catalyst CO2 Separation/Fixation Biomass Green Cycle for the Future Wellness Healthy life with health-care innovation Emotion Joyful life with imaging product evolution Ambient Green sustainable Society with functional materials innovation Sustainable society Prevent warming Energy efficiency Green Energy Core technology based on Photography nanotech awardwinning 2011, 2012, 2013 14
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