Details

Mechanics of Flexible and Stretchable Electronics


Mechanics of Flexible and Stretchable Electronics


1. Aufl.

von: Yong Zhu, Nanshu Lu

151,99 €

Verlag: Wiley-VCH (D)
Format: EPUB
Veröffentl.: 04.09.2024
ISBN/EAN: 9783527842292
Sprache: englisch
Anzahl Seiten: 496

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Beschreibungen

<p><b>Discover a comprehensive overview and advances in mechanics to design the cutting edge electronics</b> <p>Soft electronics systems, which include flexible and stretchable electronics, are an area of technology with the potential to revolutionize fields from healthcare to defense. Engineering for flexibility and stretchability without compromising electronic functions poses serious challenges, and extensive mechanics and engineering knowledge is required to meet these challenges. <i>Mechanics of Flexible and Stretchable Electronics</i> introduces a range of soft functional materials and soft structures and their potential applications in the construction of soft electronics systems. Its detailed attention to the mechanics of these materials and structures makes it an indispensable tool for scientists and engineers at the cutting edge of electronics technology. <p><i>Mechanics of Flexible and Stretchable Electronics</i> readers will also find: <ul><li>A detailed summary of recent advances in the field</li> <li>Detailed treatment of structures including kirigami, serpentine, wrinkles, and many more</li> <li>A multidisciplinary approach suited to a varied readership</li></ul> <p><i>Mechanics of Flexible and Stretchable Electronics</i> is ideal for electronics and mechanical engineers, solid state physicists, and materials scientists, as well as the libraries that support them.
<p>Preface xiii</p> <p><b>Part I Materials 1</b></p> <p><b>1 Extreme Mechanics of Hydrogels Toward In Situ Hydrogel Bioelectronics 3</b><br /><i>Tsz H. Wong, Xuanhe Zhao, and Shaoting Lin</i></p> <p>1.1 Introduction 3</p> <p>1.2 Extreme Properties of Hydrogels by Polymer Network Design 5</p> <p>1.3 Stretchable Hydrogel Conductors 14</p> <p>1.4 Electrochemical Hydrogel Biosensors 18</p> <p>1.5 Flexible Hydrogel Biobattery 20</p> <p>1.6 Concluding Remarks 23</p> <p><b>2 Multiscale Mechanics of Metal Nanowire-Based Stretchable Electronics 37</b><br /><i>Shuang Wu and Yong Zhu</i></p> <p>2.1 Introduction 37</p> <p>2.2 Metal NW-Based Flexible and Stretchable Electronics 38</p> <p>2.3 Mechanics of Individual NWs 39</p> <p>2.4 Interfacial Mechanics of the NW-Polymer Interface 45</p> <p>2.5 Mechanical Design of Stretchable Structures 54</p> <p>2.6 Concluding Remarks 58</p> <p><b>3 Liquid Metal-Based Electronics 69</b><br /><i>Carmel Majidi</i></p> <p>3.1 Introduction 69</p> <p>3.2 LM Architectures 71</p> <p>3.3 Mechanics and Modeling 76</p> <p>3.4 Open Challenges and Future Directions 81</p> <p><b>4 Mechanics of Two-Dimensional Materials 87</b><br /><i>Olugbenga Ogunbiyi and Yingchao Yang</i></p> <p>4.1 Introduction 87</p> <p>4.2 Nanoindentation Method 90</p> <p>4.3 AFM-Enabled Nanoindentation 93</p> <p>4.4 In Situ Indentation in SEM 108</p> <p>4.5 Micro-/Nano-mechanical Devices 111</p> <p>4.6 Piezoelectric Tube-Driven Testing in TEM 120</p> <p>4.7 Bulge Testing 121</p> <p>4.8 Electrostatic Force Triggered Drum Structure 124</p> <p>4.9 Phonon Dispersion Measurement 125</p> <p>4.10 Summary 126</p> <p><b>5 Mechanics of Flexible and Stretchable Organic Electronics 139</b><br /><i>Abdullah Al Shafe and Brendan T. O'Connor</i></p> <p>5.1 Introduction 139</p> <p>5.2 Mechanical Characterization Methods 140</p> <p>5.3 Material Design 145</p> <p>5.4 Device Design 153</p> <p>5.5 Applications 156</p> <p>5.6 Conclusion 159</p> <p><b>Part II Design and Manufacturing 171</b></p> <p><b>6 Structural Design of Flexible and Stretchable Electronics 173</b><br /><i>Zhaoqian Xie, Zichen Zhao, and Raudel Avila</i></p> <p>6.1 Introduction 173</p> <p>6.2 Design of Planar Stretchable and Flexible Structures 174</p> <p>6.3 Design of Three-Dimensional Flexible Electronic Structures 189</p> <p>6.4 Design of Protective Structures for Flexible Electronic Devices 193</p> <p><b>7 Laser-Based Fabrication Process Development for Flexible and Stretchable Electronics 207</b><br /><i>Jung Jae Park, Minwoo Kim, and Seung Hwan Ko</i></p> <p>7.1 Introduction 207</p> <p>7.2 Representative Laser-Based Fabrication Process 208</p> <p>7.3 Applications Based on Laser Fabrication 211</p> <p>7.4 Perspectives and Conclusion 225</p> <p><b>8 Electrospinning Manufacturing of Stretchable Electronics 235</b><br /><i>Yinhui Li, Kan Li, Yunlei Zhou, and YongAn Huang</i></p> <p>8.1 Background 235</p> <p>8.2 High-Precision Manufacturing 236</p> <p>8.3 Electrospinning Stretchable Structure 243</p> <p>8.4 Application in Stretchable Electronics 247</p> <p>8.5 Conclusions 254</p> <p><b>9 Mechanics-Guided 3D Assembly of Flexible Electronics 265</b><br /><i>Guoquan Luo, Jianzhong Zhao, Xu Cheng, and Yihui Zhang</i></p> <p>9.1 Introduction 265</p> <p>9.2 Design Strategies of Mechanics-Guided Assembly 266</p> <p>9.3 Mechanics Modeling and Analyses of the 3D Assembly 275</p> <p>9.4 Applications of 3D Flexible Electronics 284</p> <p>9.5 Concluding Remarks 287</p> <p><b>10 Harnessing Wrinkling and Buckling Instabilities for Stretchable Devices and Healthcare 293</b><br /><i>Yao Zhao, Fangjie Qi, Haoze Sun, Yanbin Li, Haitao Qing, and Jie Yin</i></p> <p>10.1 Introduction 293</p> <p>10.2 Structural Designs and Mechanics 294</p> <p>10.3 Applications in Stretchable Devices 300</p> <p>10.4 Applications in Healthcare 306</p> <p>10.5 Conclusion and Outlook 311</p> <p><b>Part III Applications 319</b></p> <p><b>11 Spherical Indentation Behavior of Soft Electronics 321</b><br /><i>Changxian Wang, Zequn Cui, and Xiaodong Chen</i></p> <p>11.1 Spherical Indentation of the Semi-infinite Solid 321</p> <p>11.2 Applications in a Force-Softness Bimodal Sensor Array for Human Body Feature Identification 328</p> <p>11.3 Applications in a Self-Locked Young’s Modulus Sensor for Quantifying the Softness of Swollen Tissues in the Clinic 336</p> <p>11.4 Conclusions 343</p> <p><b>12 Mechanics of Wet Adhesion 345</b><br /><i>Jiawei Yang and Ruobing Bai</i></p> <p>12.1 Introduction 345</p> <p>12.2 Characterization of Adhesion 346</p> <p>12.3 General Principles for StrongWet Adhesion 347</p> <p>12.4 Methods for StrongWet Adhesion 354</p> <p>12.5 Mechanics ofWet Interfaces 357</p> <p>12.6 Summary and Outlook 362</p> <p><b>13 Electromechanics of Soft Resistive and Capacitive Tactile Sensors 373</b><br /><i>Zhengjie Li, Sangjun Kim, Zheliang Wang, Zhengtao Zhu, and Nanshu Lu</i></p> <p>13.1 Introduction 373</p> <p>13.2 Resistive Tactile Sensors 378</p> <p>13.3 Capacitive Tactile Sensors 399</p> <p>13.4 Resistive-Capacitive Hybrid Response Tactile Sensors 415</p> <p>13.5 Conclusion and Outlook 418</p> <p><b>14 Active Mechanical Haptics Constructed with Curved Origami 431</b><br /><i>Zhuang Zhang and Hanqing Jiang</i></p> <p>14.1 Introduction 431</p> <p>14.2 Stiffness Tuning via Curved Origami 432</p> <p>14.3 Theoretical Modeling and Analysis of Curved Origami 434</p> <p>14.4 Closed-Loop Design and System Integration of Origami 438</p> <p>14.5 In-hand Haptic Device 440</p> <p>14.6 Stiffness Perception via Active Pressing 443</p> <p>14.7 Body-Centered Stepping Device 444</p> <p>14.8 Whole-Body Stiffness Perceptions 447</p> <p>14.9 Discussion 448</p> <p><b>15 Mechanics of Transient Electronics 453</b><br /><i>Ankan Dutta and Huanyu Cheng</i></p> <p>15.1 Introduction 453</p> <p>15.2 Hydrolysis of Semiconducting Materials 455</p> <p>15.3 Model of Reactive Diffusion for Transient Materials 457</p> <p>15.4 Dissolution of the Device with Bi-layered Structures 461</p> <p>15.5 Conclusion 467</p> <p>Acknowledgments 468</p> <p>References 468</p> <p>Index 473</p>
<p><b>Yong Zhu, PhD,</b> is the Andrew A. Adams Distinguished Professor in the Department of Mechanical and Aerospace Engineering at North Carolina State University (NCSU). He received his Ph.D. degrees from Northwestern University. His work has been recognized with a number of awards including James R. Rice Medal from the Society of Engineering Science, Bessel Research Award from the Alexander von Humboldt Foundation, Zdenik P. Ba?ant Medal and Gustus L. Larson Memorial Award from ASME.</p> <p><b>Nanshu Lu, PhD,</b> is Full Professor at the University of Texas at Austin. She received her B.Eng. from Tsinghua University, Beijing, Ph.D. from Harvard University, and then Beckman Postdoctoral Fellowship at UIUC. She has been named 35 innovators under 35 by MIT Technology Review (TR 35) and iCANX/ACS Nano Inaugural Rising Star. She has received US NSF CAREER Award, US ONR and AFOSR Young Investigator Awards, 3M non-tenured faculty award, and the ASME Applied Mechanics Division Thomas J.R. Hughes Young Investigator Award. She has been selected as one of the five great innovators on campus and five world-changing women of the University of Texas at Austin.</p>
<p><b>Discover a comprehensive overview and advances in mechanics to design the cutting edge electronics</b> <p>Soft electronics systems, which include flexible and stretchable electronics, are an area of technology with the potential to revolutionize fields from healthcare to defense. Engineering for flexibility and stretchability without compromising electronic functions poses serious challenges, and extensive mechanics and engineering knowledge is required to meet these challenges. <i>Mechanics of Flexible and Stretchable Electronics</i> introduces a range of soft functional materials and soft structures and their potential applications in the construction of soft electronics systems. Its detailed attention to the mechanics of these materials and structures makes it an indispensable tool for scientists and engineers at the cutting edge of electronics technology. <p><i>Mechanics of Flexible and Stretchable Electronics</i> readers will also find: <ul><li>A detailed summary of recent advances in the field</li> <li>Detailed treatment of structures including kirigami, serpentine, wrinkles, and many more</li> <li>A multidisciplinary approach suited to a varied readership</li></ul> <p><i>Mechanics of Flexible and Stretchable Electronics</i> is ideal for electronics and mechanical engineers, solid state physicists, and materials scientists, as well as the libraries that support them.

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