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Flexible and transparent electrodes, such as conductive polymer, CNTs, graphene and multi-layer graphene electrodes without indium, have been developed for use in the field of flexible stretchable electronic devices. Even though there are negligible markets for the flexible display, solar cell or touch panel, flexible and transparent electrodes will become important as the market grows. Flexible transparent electrodes with superior properties are expected as various materials have been studied for industrial application. Graphene is expected to be an alternative material to ITO, which is commonly used as transparent electrodes in touch sensors and solar cells. Additionally, because of its superior mechanical properties, it has great potential for flexible electronics such as OLED displays and solar cells. Even with only six years of research on graphene since the discovery in 2004, robust research efforts have allowed the development of various technologies for industrial applications, such as transparent electrodes and semiconductor devices. There is no doubt these technologies will quickly become more efficient in the near future. |
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Flexible and transparent electrodes, such as conductive polymer, CNTs, graphene and multi-layer graphene electrodes without indium, have been developed for use in the fieldof flexible stretchable electronic devices. Even though there are negligible markets for the flexible display, solar cell or touch panel, flexible and transparent electrodes will becomeimportant as the market grows. Flexible transparent electrodes with superior properties are expected as various materials have been studied for industrial application. ÈáÐÔ͸Ã÷µç¼«£¬Ïñ£ºµ¼µç¾ÛºÏÎ̼ÄÉÃ׹ܡ¢Ê¯Ä«Ï©ºÍ²»º¬î÷µÄ¶à²ãʯīϩµç¼«£¬ÒѾÔÚÁé»î¿ÉÉìËõµç×Ó×°ÖÃÖеõ½Á˳ä·ÖµÄ·¢Õ¹¡£ËäÈ»ÔÚÈáÐÔÏÔʾÆ÷¡¢Ì«ÑôÄÜµç³Ø»ò´¥¿ØÃæ°åµÈÁìÓòÖÐÒѾÓв»¿ÉºöÊÓµÄÊг¡£¬µ«ÊÇÈáÐÔ͸Ã÷µç¼«½«»áÔÚÊг¡·¢Õ¹ÖÐÆðµ½ÖØÒª×÷Óá£Ëæ×ŶԸ÷ÖÖ²ÄÁÏÔÚ¹¤ÒµÓ¦ÓÃÖеÄÑо¿µÄ½øÒ»²½·¢Õ¹£¬¾ßÓÐÓÅÒìÐÔÄܵÄÈáÐÔ͸Ã÷µç¼«µÄ²úÉúÖ¸ÈÕ¿É´ý¡£ Graphene is expected to be an alternative material to ITO, which is commonly used as transparent electrodes in touch sensors and solar cells. Additionally, because of its superior mechanical properties, it has great potential for flexible electronics such as OLED displays and solar cells. Even with only six years of research on graphene since the discovery in 2004, robust research efforts have allowed the development of various technologies for industrial applications, such as transparent electrodes and semiconductor devices. There is no doubt these technologies will quickly become more efficient in the near future. ʯīϩÓÐÍûÌæ´ú³£ÓÃ×÷´¥¿ØÃæ°åÒÔ¼°Ì«ÑôÄÜµç³ØÖеÄÈáÐÔ͸Ã÷µç¼«µÄITO²ÄÁÏ¡£ÁíÍ⣬ÓÉÓÚÆäÓÅÒìµÄ»úеÐÔÄÜ£¬ÔÚÏñOLEDÏÔʾÆ÷ÒÔ¼°Ì«ÑôÄÜµç³ØµÈÈáÐÔµç×Ó×°ÖÃÖоßÓзdz£´óµÄ·¢Õ¹Ç±Á¦¡£×Ô´Ó2004Äê·¢ÏÖʯīϩÒÔÀ´£¬Ôڶ̶ÌÁùÄêÄÚ¶ÔʯīϩȡµÃ·á˶µÄÑо¿³É¹ûÒѾÄܹ»ÔÚ¹¤Òµ»¯Ó¦ÓÃÖпª·¢¸÷ÖÖм¼Êõ£¬±ÈÈ磺͸Ã÷µç¼«ÒÔ¼°°ëµ¼Ìå×°Öá£ÎãÓ¹ÖÃÒɵÄÊÇÔÚ²»¾ÃµÄ½«À´£¬ºÜ¿ìÕâЩ¼¼Êõ½«±äµÃ¸üΪ¸ßЧ¡£ |
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