演讲嘉宾-Felice Torrisi

Felice Torrisi
英国剑桥大学 教授
   Felice Torrisi博士是英国剑桥大学电气工程部的石墨烯技术讲师,也是三一学院的研究员。他在剑桥石墨烯中心工作。在意大利国家研究委员会微电子和微系统研究所从事一段研究时期后,他毕业于意大利的卡塔尼亚大学,接着于2008年10月加入了剑桥大学的纳米光谱实验小组。2012年,由于他的石墨烯印刷技术,他获得了Parmee奖项。2013年,他获得了剑桥大学工程系博士学位,在同一年,他作为研究助理加入剑桥大学。同时,自2014年起他也是中国国家自然科学基金会的国际青年科学家研究员。他的研究领域包括:分散纳米材料,掺入油墨和涂料及其聚合物的复合材料,柔性/可拉伸印刷和透明光电电子。他是科学期刊的主要定期审稿人,在印刷/柔性(光电)电子领域和纳米技术领域的国际会议上常常受邀作报告。


演讲题目:Large-scale Manufacturing of Graphene and Related Materials Inks for Flexible (Opto)electronics
主题会场石墨烯在导电油墨领域的应用&中英石墨烯双边合作论坛
开始时间
结束时间
内容摘要

Large-scale Manufacturing of Graphene and Related Materials Inks for Flexible (Opto)electronics(主题会场:石墨烯在导电油墨领域的应用)

Graphene and related materials (GRMs) hold great potential for flexible (opto)electronics for their novel electrical, optical and mechanical properties. The road to realistic applications and commercialization of GRMs requires the assessment of three key factors: cost/performance, mass-production and manufacturability with respect to commercially available alternative solutions. For example, transparent conducting oxides used in displays are brittle, printable metal nanoparticles for interconnects are not cost-effective and have demanding processing requirements, while organic polymers are expensive and have limited stability. Low temperature production and deposition of GRM-based inks is thus an attractive alternative for large-area printable, flexible (opto)electronics. GRM inks enable a large range of device fabrication and integration options, such as digital and lithographic printing, roll-to-roll coating, as well as being ideal for embedding into polymer composites or other nanomaterials. Liquid Phase Exfoliation (LPE) of bulk precursor layered materials (such as graphite, MoS2 crystals, etc.) is a scalable approach ideally suited to produce inks. However, currently LPE has low yield, resulting in a low concentration of dispersed GRMs. I will give a brief overview about the development of high-yield, cost-effective and large-scale production techniques for GRM-based inks, and the portfolio of reproducible manufacturability processes enabling future GRM-based printable and flexible (opto)electronic devices and composites. I will demonstrate cost-effective, up-scalable production of high concentration graphene inks with tailored properties (on-demand size, shape, number of layers and concentration) [1]. By combining LPE with ultra-centrifugation, I will show pilot-scales to produce stable GRM inks through engineered exfoliation and chemical treatment protocols. Fine tuning of the size and shape of the flakes enables the formulation of inks, tailored for various printing and coating methods, such as inkjet, flexographic and screen printing, spray and rod coating. Their distribution of the GRM flakes and their interaction with the substrate controls the final (opto)electronic properties of the printed devices. I will discuss realistic pathways to commercialization of GRM inks and demonstrate prototypes such as: inkjet-printed graphene thin-film transistors [3], flexible transparent touch pads and photodetectors. Finally, I will present my vision on manufacturability of flexible and wearable electronic and optoelectronic devices embedding the optical, electronic, mechanical and thermal functionalities of graphene, 2d crystals and their hybrid hetero-structures.

关于主办方

联系我们
400-110-3655   

E-mail: meeting@c-gia.cn   meeting01@c-gia.cn

参展电话:13646399362(苏老师)

主讲申请:19991951101(王老师)

官方微信订阅号
Copyright © 中国国际石墨烯创新大会 版权所有     运营机构:北京现代华清材料科技发展有限责任公司
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京公网安备 11010802023402号
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凯发_Felice Torrisi

凯发

演讲嘉宾-Felice Torrisi

Felice Torrisi
英国剑桥大学 教授
   Felice Torrisi博士是英国剑桥大学电气工程部的石墨烯技术讲师,也是三一学院的研究员。他在剑桥石墨烯中心工作。在意大利国家研究委员会微电子和微系统研究所从事一段研究时期后,他毕业于意大利的卡塔尼亚大学,接着于2008年10月加入了剑桥大学的纳米光谱实验小组。2012年,由于他的石墨烯印刷技术,他获得了Parmee奖项。2013年,他获得了剑桥大学工程系博士学位,在同一年,他作为研究助理加入剑桥大学。同时,自2014年起他也是中国国家自然科学基金会的国际青年科学家研究员。他的研究领域包括:分散纳米材料,掺入油墨和涂料及其聚合物的复合材料,柔性/可拉伸印刷和透明光电电子。他是科学期刊的主要定期审稿人,在印刷/柔性(光电)电子领域和纳米技术领域的国际会议上常常受邀作报告。


演讲题目:Large-scale Manufacturing of Graphene and Related Materials Inks for Flexible (Opto)electronics
主题会场石墨烯在导电油墨领域的应用&中英石墨烯双边合作论坛
开始时间
结束时间
内容摘要

Large-scale Manufacturing of Graphene and Related Materials Inks for Flexible (Opto)electronics(主题会场:石墨烯在导电油墨领域的应用)

Graphene and related materials (GRMs) hold great potential for flexible (opto)electronics for their novel electrical, optical and mechanical properties. The road to realistic applications and commercialization of GRMs requires the assessment of three key factors: cost/performance, mass-production and manufacturability with respect to commercially available alternative solutions. For example, transparent conducting oxides used in displays are brittle, printable metal nanoparticles for interconnects are not cost-effective and have demanding processing requirements, while organic polymers are expensive and have limited stability. Low temperature production and deposition of GRM-based inks is thus an attractive alternative for large-area printable, flexible (opto)electronics. GRM inks enable a large range of device fabrication and integration options, such as digital and lithographic printing, roll-to-roll coating, as well as being ideal for embedding into polymer composites or other nanomaterials. Liquid Phase Exfoliation (LPE) of bulk precursor layered materials (such as graphite, MoS2 crystals, etc.) is a scalable approach ideally suited to produce inks. However, currently LPE has low yield, resulting in a low concentration of dispersed GRMs. I will give a brief overview about the development of high-yield, cost-effective and large-scale production techniques for GRM-based inks, and the portfolio of reproducible manufacturability processes enabling future GRM-based printable and flexible (opto)electronic devices and composites. I will demonstrate cost-effective, up-scalable production of high concentration graphene inks with tailored properties (on-demand size, shape, number of layers and concentration) [1]. By combining LPE with ultra-centrifugation, I will show pilot-scales to produce stable GRM inks through engineered exfoliation and chemical treatment protocols. Fine tuning of the size and shape of the flakes enables the formulation of inks, tailored for various printing and coating methods, such as inkjet, flexographic and screen printing, spray and rod coating. Their distribution of the GRM flakes and their interaction with the substrate controls the final (opto)electronic properties of the printed devices. I will discuss realistic pathways to commercialization of GRM inks and demonstrate prototypes such as: inkjet-printed graphene thin-film transistors [3], flexible transparent touch pads and photodetectors. Finally, I will present my vision on manufacturability of flexible and wearable electronic and optoelectronic devices embedding the optical, electronic, mechanical and thermal functionalities of graphene, 2d crystals and their hybrid hetero-structures.

关于主办方

联系我们
400-110-3655   

E-mail: meeting@c-gia.cn   meeting01@c-gia.cn

参展电话:13646399362(苏老师)

主讲申请:19991951101(王老师)

官方微信订阅号
Copyright © 中国国际石墨烯创新大会 版权所有     运营机构:北京现代华清材料科技发展有限责任公司
grapchina.org 京ICP备10026874号-12   grapchina.cn 京ICP备10026874号-23
京公网安备 11010802023402号
分享到: