亚洲精品国产免费,91青娱国产,中文字幕人成无码人妻综合社区,欧美亚洲中文精品高清字幕,欧美亚洲熟女黄片,日本xxxxxxxxxx18视频,久久久久亚洲AI毛片换脸星大全

?

?

Abstract：
New materials and processes1 can improve the performance of existing devices or enable new? ones1-5 that? are? also? environmentally? benign.? In? this? context,? graphene? and? other 2D crystals are emerging as promising materials,1-5 with the opportunity to enable new products.1 A? key? requirement? for? applications? such? as? flexible? electronics? and? energy? storage? and conversion? is? the? development? of? industrial-scale,? reliable,? inexpensive? production processes,2 while providing a balance between ease of fabrication and final material quality? with on-demand properties. Solution-processing2,6 offers a simple and cost-effective pathway to fabricate various 2d crystal-based? (opto)electronic? and? energy? devices,? presenting? huge? integration? flexibility compared to conventional methods. Here, I will present an overview of graphene and other 2d? for? flexible? and? printed? (opto)electronic? and? energy? applications,? starting? from? solution processing? of? the? raw? bulk? materials,2 the? fabrication? of? large? area? electrodes3 and? their? integration in the final devices.7,8,9,10,11,12

?

References
1.? A.? C.? Ferrari,? F.? Bonaccorso,? et? al.,? Scientific? and? technological? roadmap? for? graphene,? related two-dimensional crystals, and hybrid systems. Nanoscale, 7, 4598-4810 (2015).
2.? F. Bonaccorso, et al., Production and processing of graphene and 2d crystals. Materials Today, 15, 564-589, (2012).
3.? F.? Bonaccorso,? et.? al.,? Graphene? photonics? and? optoelectronics,? Nature? Photonics? 4,? 611-622, (2010).
4.? F.? Bonaccorso,? Z.? Sun,? Solution? processing? of? graphene,? topological? insulators? and? other? 2d crystals for ultrafast photonics. Opt. Mater. Express 4, 63-78 (2014).
5.? G. Fiori,? et al.,? Electronics based on two-dimensional materials.? Nature Nanotech 9,? 768-779, (2014).
6.? F. Bonaccorso, et. al., 2D-crystal-based functional inks. Adv. Mater. 28, 6136-6166 (2016).
7.? F. Bonaccorso, et. al., Graphene, related two-dimensional crystals, and hybrid systems for energy conversion and storage. Science, 347, 1246501 (2015).
8.? J. Hassoun, et al.? An advanced lithium-ion battery based on a graphene anode and a lithium iron phosphate cathode Nano Lett. 14, 4901-4906 (2014).
9.? F . Bonaccorso, et al. Functionalized Graphene as an Electron Cascade Acceptor for Air Processed Organic Ternary Solar Cells. Adv. Funct. Mater. 25, 3870-3880 (2015).
10.? P.? Cataldi, et? al.? Foldable? Conductive? Cellulose? Fiber? Networks? Modified? by Graphene Nanoplatelet-Bio-based Composites. Adv. Electr. Mater. DOI: 10.1002/aelm.201500224 (2015).
11.? S.? Casaluci, et? al.? Graphene-based? large? area? dye-sensitized? solar? cell? module.? Nanoscale 8, 5368-5378 (2016).
12.? A. Capasso, et? al.? Few-layer MoS2? flakes as active buffer layer for stable perovskite solar cells. Adv. Ener. Mater. 6, 1600920, (2016).

CV of Dr. Francesco Bonaccorso
? Francesco gained his Ph.D. from the University of Messina in Italy. In June 2009 he was awarded a Royal Society Newton International Fellowship at the Engineering Department of Cambridge University, and elected to a Research Fellowship at Hughes Hall, Cambridge. In 2012, He received the Cambridge MA degree. He organized the 10 years science and technology roadmap for the graphene flagship programme, by arranging the contributions of numerous universities, research institutes and companies worldwide. His research interests encompass solution processing of carbon nanomaterials (such as graphene, nanotubes and nanodiamonds), inorganic layered materials (e.g. MoS2, WS2, Bi2Te3, etc.), and their combination in hybrid superstructures, their spectroscopic characterization, incorporation into polymer composites and application in conversion and storage devices, smart windows, touch‐screens, and ultrafast lasers.

?

?