Produktbild: Emerging 2d Materials & Device

Emerging 2d Materials & Device Information, Sensing and Energy Applications

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

26.06.2020

Herausgeber

Li Tao + weitere

Verlag

Elsevier Science & Technology

Seitenzahl

300

Maße (L/B/H)

23,5/19,1/2,4 cm

Gewicht

720 g

Sprache

Englisch

ISBN

978-0-12-818386-1

Beschreibung

Portrait

Li Tao is a Professor in the School of Materials Science and Engineering at Southeast University, Nanjing, China. His research interests focus on 2D materials and flexible devices, microsystem and nanoengineering platforms. He is a co-inventor of mono- and multi-layer silicene transistors, 12’’ wafer-scale graphene on evaporated Cu and GHz flexible graphene electronics.

Deji Akinwande is Associate Professor in the Department of Electrical and Computer Engineering at the University of Texas – Austin, USA. His research explores materials and electronic systems based on 2D atomic layers. He is a co-inventor of a high-frequency chip-to-chip interconnect and an electrically small antenna for bioelectronics

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

26.06.2020

Herausgeber

Verlag

Elsevier Science & Technology

Seitenzahl

300

Maße (L/B/H)

23,5/19,1/2,4 cm

Gewicht

720 g

Sprache

Englisch

ISBN

978-0-12-818386-1

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  • Produktbild: Emerging 2d Materials & Device
  • 1 Two-dimensional materials-based nonvolatile resistive memories and radio frequency switches .......................................................................1

    Ruijing Ge, Xiaohan Wu, Myungsoo Kim,

    Jack C. Lee and Deji Akinwande

    1.1 Introduction to two-dimensional

    nonvolatile resistive memory........................ 1

    1.2 Two-dimensional materials preparation

    and memory device fabrication .................... 3

    1.3 Two-dimensional nonvolatile resistive

    memory........................................................... 7

    1.4 Switching mechanics ................................... 12

    1.5 MoS2 radio frequency switches .................. 18

    1.6 Summary ...................................................... 25

    Acknowledgment ................................................ 25

    References ........................................................... 25

    2 Two-dimensional materials-based radio frequency wireless communication and sensing systems for Internet-of-things applications ..............................................................29

    Liang Zhu, Mohamed Farhat,

    Khaled Nabil Salama and Pai-Yen Chen

    2.1 Introduction .................................................. 29

    2.2 Radio frequency performance of

    two-dimensional transistors........................ 32

    2.3 Frequency mixers and signal modulators

    based on two-dimensional transistors ....... 45

    2.4 Integrated wireless Internet-of-things

    sensors.......................................................... 48

    2.5 Radio frequency energy harvesting using

    two-dimensional electronic devices ........... 51

    2.6 Conclusion .................................................... 52

    References ........................................................... 53

    3 Graphene electronic tattoo sensors for

    point-of-care personal health monitoring and

    human_machine interfaces ..................................59

    Shideh Kabiri Ameri and Liu Wang

    3.1 Introduction .................................................. 59

    3.2 Theoretical background ............................... 61

    3.3 Fabrication of graphene electronic tattoo

    sensors.......................................................... 65

    3.4 Applications of graphene electronic tattoo

    sensors and effects of the thickness on

    performance ................................................. 71

    3.5 Conclusion .................................................... 85

    References ........................................................... 85

    4 Transition metal dichalcogenides as

    ultrasensitive and high-resolution

    biosensing nodes......................................................87

    Xiaogan Liang

    4.1 New opportunities for biosensing

    devices .......................................................... 87

    4.2 Electronic biosensors made from

    transition metal dichalcogenides ................ 94

    4.3 Biosensors based on optical and

    optoelectronic properties of transition metal

    dichalcogenides...........................................103

    4.4 Biosensors based on structural properties

    of transition metal dichalcogenides...........107

    4.5 Final remarks ...............................................112

    References ..........................................................113

    5 Nanophotonics and optoelectronics based on

    two-dimensional MoS2 .........................................121

    Zilong Wu, Linhan Lin and Yuebing Zheng

    5.1 MoS2-based nanoplasmonics ....................121

    5.2 MoS2-based optoelectronics ......................127

    5.3 Summary .....................................................133

    References ..................................