Three-Dimensional Micro- and Nanodevices, 2 Volumes

Jeong-Hyun Cho is Assistant Professor in Electrical Engineering at University of Minnesota, USA. After his Ph.D. in engineering science from Washington State University, USA, he worked for two years at The Johns Hopkins University, USA and three years at the Los Alamos National Laboratory, USA as a postdoctoral researcher. He joined University of Minnesota in 2013 and his research focuses on three-dimensional (3D) multifunctional micro- and nanostructures for devices. He received several awards, including the Faculty Early Career Development (CAREER) Award from the National Science Foundation in 2015 and the Achievement Award at the Los Alamos National Laboratory in 2011. He has published 43 journal articles and is well-known as a pioneer in the field of surface patterning on 3D micro- and nanostructures.

• Volume I INTRODUCTIONChapter 1 Overview of Three-Dimensional Micro and Nano Devices NOVEL PHYSICAL PROPERTIES OF 3D STRUCTURESChapter 2. Volumetric Light Confinement Induced in 3D Nano Structures Configured with 2D MaterialsChapter 3. Enhanced Raman Scattering in 3D Nano StructuresChapter 4. Novel Material Properties of Ultra-Lightweight 3D Film MaterialsChapter 5. High Energy Capacities Realized by 3D Nano Architecture in Lithium-Ion BatteriesChapter 6. Manipulation of Incoming Light Beam with 3D MetasurfacesChapter 7. Reduced Energy Loss in 3D Architecture Resulting in Ultra High Q-Factor 3D MICRO AND NANO FABRICATIONChapter 8 3D Assembly in NatureChapter 9 3D Self-Assembly by Material Reflow. Chapter 10 Buckling of a Stiff Thin Film on a Pre-Strained Bi-Layer SubstrateChapter 11 3D printing (Stereolithography)Chapter 12 Direct Laser Writing of 3D Photonic CrystalsChapter 13 3D Assembly of Nanoparticles from Charged AerosolsChapter 14. Complex 3D Nanostructures Fabricated by Focused Ion Beam-Induced FoldingChapter 15 3D Packaging and Integration Volume IIMICRO AND NANOSCALE 3D DEVICESChapter 16 Rotary Molecular Engine Powered by the Flow of Ions Chapter 17 Bio-inspired/Bio-integrated 3D Electronic SensorsChapter 18 3D Stacked Hetegrogeneous Integrated CircuitsChapter 19 3D Microscale Medical Devices: Self-folding Thermo-Magnetically Responsive MicrogrippersChapter 20 Self-Assembled DNA Origami BoxChapter 21 3D Optoelectronic DevicesChapter 22 3D Bowtie NanoantennasChapter 23 3D TransistorsChapter 24 Toroidal 3D MetamaterialsChapter 25 Self-Rolled-up 3D NanomembranesChapter 26 Multi-Direction-Tunable 3D Meta-AtomsChapter 27 3D photovoltaic cellsChapter 28 3D Anisotropic and Isotropic MetamaterialsChapter 29 3D Neural Probe ArrayChapter 30 3D Vibration-Driven Electromagnetic MEMS Energy HarvesterChapter 31 3D Microfluidic Devices