01196nam2 22003373i 450 CAG006592720231121125420.0880430264X20151016d1998 ||||0itac50 baitaitz01i xxxe z01n˜1: œPoesieGiacomo Leopardia cura di Mario Andrea Rigonicon un saggio di Cesare Galimberti7. edMilanoA. Mondadori1998XCII, 1112 p.18 cmIn custodia001RAV00357042001 Poesie e proseGiacomo Leopardi1851.7POESIA ITALIANA. 1814-185921Leopardi, Giacomo <1798-1837>CFIV002049292683Galimberti, CesareCFIV046812Rigoni, Mario AndreaCFIV047786340ITIT-0120151016IT-FR0017 Biblioteca umanistica Giorgio ApreaFR0017 NCAG0065927Biblioteca umanistica Giorgio Aprea 52MAG 5 Coll C 54.1 52FLS0000165415 VMN RS A 2016040420160404 52Poesie148701UNICAS04133nam 2201045z- 450 991055729240332120210501(CKB)5400000000041115(oapen)https://directory.doabooks.org/handle/20.500.12854/68821(oapen)doab68821(EXLCZ)99540000000004111520202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPreparation and Properties of 2D MaterialsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (142 p.)3-03936-258-5 3-03936-259-3 Since the great success of graphene, atomically thin-layered nanomaterials, called two dimensional (2D) materials, have attracted tremendous attention due to their extraordinary physical properties. Specifically, van der Waals heterostructured architectures based on a few 2D materials, named atomic-scale Lego, have been proposed as unprecedented platforms for the implementation of versatile devices with a completely novel function or extremely high-performance, shifting the research paradigm in materials science and engineering. Thus, diverse 2D materials beyond existing bulk materials have been widely studied for promising electronic, optoelectronic, mechanical, and thermoelectric applications. Especially, this Special Issue included the recent advances in the unique preparation methods such as exfoliation-based synthesis and vacuum-based deposition of diverse 2D materials and also their device applications based on interesting physical properties. Specifically, this Editorial consists of the following two parts: Preparation methods of 2D materials and Properties of 2D materialsHistory of engineering and technologybicssc2D heterostructure2D/2D heterojunctionatomic crystalband-to-band tunneling (BTBT)bias stress stabilitybilayer-stacked structureblack phosphoruscarbon nitridechemical vapor depositioncontact resistancedisorderferroelectricsfew-layer MoS2film-substrate interactionflexible substrateg-C3N4interfacial layerjunction FETLangmuir-Blodgett techniqueliquid exfoliationlubricant additivesmagnetron sputteringmagnetron sputtering powermechanical exfoliationmolybdenum disulfidemolybdenum trioxideMoS2MoS2 nanosheetn/ananoplatesnatural molybdeniteNb2O5 interlayerNbSe2neuromorphic systemP-doped MoS2p-type conductionP2O5photoelectric propertiesphotoluminescenceQ-switched laserraman spectroscopyRaman spectroscopysaturable absorbersscanning Kelvin probe microscopySiO2synapse devicesynthesistransition metal dichalcogenidestribological propertiestunneling diodetunneling FETtwo-dimensional materialsuniaxial strainV2Se9WS2WSe2α-MoO3History of engineering and technologyCho Byungjinedt1311322Kim YonghunedtCho ByungjinothKim YonghunothBOOK9910557292403321Preparation and Properties of 2D Materials3030243UNINA