Session
1: Circuits & Systems |
No. |
Title |
Author |
1.01 |
An Ingestible Pill for Ultrasound Imaging of Small Intestine |
John Lee |
1.02 |
Virtual Source MOSFET Model: Parameter Extraction, Statistical Modeling and Application |
Li Yu |
1.03 |
System Energy Model for a Digital Ultrasound Beamformer with Image Quality Control |
Bonnie Lam |
1.04 |
Reconfigurable Processor for Computational Photography |
Rahul Rithe |
1.05 |
An Embedded Energy Monitoring Circuit for an SRAM with Body-Biased Sense Amplifiers |
Yildiz Sinangil |
1.06 |
A 10b 1GS/s Time-Interleaved SAR ADC with a Background Timing-Skew Calibration |
Sunghyuk Lee |
1.07 |
Methodology for the Optimal Design of PEV Charging Systems with Multiple Chargers and Distributed Resources |
Samantha Gunter |
1.08 |
High Efficiency Resonant dc/dc Converter Utilizing a Resistance Compression Network |
Wardah Inam |
1.09 |
Lossless Multi-Way Power Combining and Outphasing for Radio-Frequency Power Amplifiers |
Alexander Jurkov |
1.10 |
Integrated Low-Voltage Converter Architecture with Ac Power Delivery |
Wei Li |
1.11 |
Two-Stage Power Conversion Architecture for an LED Driver Circuit |
Seungbum Lim |
1.12 |
Wireless Body Area Networks Using Body Coupled Communication |
Grant Anderson |
1.13 |
A Wearable EEG Monitor for Seizure Detection |
Bruno Do Valle |
1.14 |
An Electronically Steered, Wearable Transcranial Doppler Ultrasound System |
Sabino Pietrangelo |
1.15 |
Erbium Silicon Photonic Integrated Oscillators and Radar (ESPIOR) |
Jonathan Leu |
1.16 |
Building Compressed Sensing Systems |
Fabian Lim |
1.17 |
Beyond Equalization: Model Predictive Control |
Amr Suleiman |
1.18 |
Numerical Computation Platform Designed for Optimization |
Andy Wright |
1.19 |
High-throughput Digital Baseband for mm-Wave Outphasing Power Amplifiers |
Yan Li |
Session
2: Electronic & Photonic Devices |
No. |
Title |
Author |
2.01 |
Framework for Treatment of Cold Field Emission from Metals: Incorporation of Quantum-Confinement Effects |
Alex Patterson |
2.02 |
GaN HEMT Transport and Charge Model for Performance Projection |
Ujwal Radhakrishna |
2.03 |
NbN film growth for Superconducting Nanowire Single Photon Detectors |
Francesco Bellei |
2.04 |
Membrane-integrated Superconducting Nanowire Single-Photon Detectors for near-field sensing applications |
Faraz Najafi |
2.05 |
Using Cavities on SNSPDs to Increase Mid-IR Absorption |
Kristen Sunter |
2.06 |
Nano-scale Metal Contacts for Future III-V CMOS |
Alex Guo |
2.07 |
Enhancing p-channel InGaSb QW-FETs via process-induced uniaxial strain |
Luke Guo |
2.08 |
Towards a Superlattice-Source Nanowire FET with Steep Subthreshold Characteristics |
Xin Zhao |
2.09 |
Oxford-100: A New PECVD/RIE Tool in ICL |
Robert Bicchieri |
2.10 |
Nanoscale Stress State Characterization of InAlN/GaN Nanoribbon HEMT Structures |
Eric Jones |
2.11 |
High Mobility Asymmetrically-Strained Germanium Nanowire Trigate p-MOSFETs |
Winston Chern |
2.12 |
Tunneling Transistors for Low Power Electronics |
James Teherani |
2.13 |
Graphene Mid-Infrared Photodetectors |
Patrick Herring |
2.14 |
Photonic Crystals on Erbium-doped Tellurite Thin Films for Broadband-enhanced Photoluminescence at near Infrared |
Pao Lin |
2.15 |
Correlation between Trap Characteristics and Dynamic-on-Resistance of GaN-HEMT |
Tadahiro Imada |
2.16 |
Towards Normally Off GaN based HEMTs for Power Switch Applications |
Sameer Joglekar |
2.17 |
High Frequency Performance of GaN HEMTs at Cryogenic Temperature |
Dong Seup Lee |
2.18 |
Noise in Graphene Sensors |
Charles Mackin |
2.19 |
Ballistic Transport in GaN-based HEMTs |
Elison Matioli |
2.20 |
GaN-based Transistors for Power Electronics |
Daniel Piedra |
2.21 |
CMOS Silicon Photonic Crystal Devices |
Karan Mehta |
2.22 |
Integrated Photonic QPSK Receiver in Commercial CMOS Process |
Huaiyu Meng |
2.23 |
Photonic Processor-DRAM Interface |
Yu-Hsin Chen |
2.24 |
A Monolithically-Integrated Optical Carrier-Injection Ring Modulator and All-Digital D river Circuit in Commercial 45nm SOI |
Benjamin Moss |
2.25 |
High-Current Field Emission Cold Cathodes with Temporal and Spatial Emission Uniformity |
Michael Swanwick |
2.26 |
Ultrafast Photo-assisted Field Emission from Silicon Nanostructured Cathodes for Coherent X-ray Generation |
Michael Swanwick |
Session
3: MEMS & BioMEMS |
No. |
Title |
Author |
3.01 |
High Resolution Neural Recording and Stimulation Devices |
Andres Canales |
3.02 |
Development of an Extracellular Matrix Microarray Reveals Changes in Cancer Cells as they Become Metastatic |
Nathan Reticker-Flynn |
3.03 |
Contact-printed MEMS Membranes |
Apoorva Murarka |
3.04 |
Tunneling Nanoelectromechanical Switches |
Farnaz Niroui |
3.05 |
MEMS Pressure-Sensor Arrays for Passive Underwater Navigation |
Mun Ee (Mandy) Woo |
3.06 |
Removal of Pathogen and Inflammatory Components from Blood using Cell Margination |
Han Wei Hou |
3.07 |
On-chip Erythrocyte Deformability Measurement And In Vivo Splenic Retention |
Sha Huang |
3.08 |
Continuous RBC Removal Using Spiral Channel With Trapezoid Cross-section |
Lidan Wu |
3.09 |
Friction forces: the link between cell mechanical properties and cell passage in constricted microfluidic channels |
Marco A. Cartas-Ayala |
3.10 |
MEMS Toroidal Inductors for Integrated Power Electronic Applications |
Mohammad Araghchini |
3.11 |
Micro-bioreactor Design for Chinese Hamster Ovary (CHO) Cells |
Shireen Goh |
3.12 |
Designing Complex Digital Systems with Scaled Nano-electro-mechanical Relays |
Hossein Fariborzi |
3.13 |
Improving Plasma Diagnostics with MEMS Fabrication Methods |
Eric Heubel |
3.14 |
Batch-Microfabricated Electrospray Arrays with Integrated Electrode Stack for Ionic Liquids |
Frances Hill |
3.15 |
Cathode for X-ray Generation with Arrays of Individually Addressable Field Emitters Controlled by Vertical Ungated FETs |
Frances Hill |
3.16 |
AC Electrokinetic Control of Axonal Growth in Collagen Scaffold |
Philip Ponce de Leon |
3.17 |
AC Electrokinetic Control of Axonal Growth in Collagen Scaffold |
Thibault Honegger |
3.18 |
Dielectrophoretic Characterization of Cells using DEP Spring |
Hao-Wei Su |
3.19 |
Thermal Stability Of Resonant Body Transistors In Standard CMOS Technology |
Radhika Marathe |
3.20 |
Deep Trench Capacitor Drive of Unreleased Si MEMS Resonator |
Wentao Wang |
Session 4:
Nanotechnology & Energy Applications |
No. |
Title |
Author |
4.01 |
Tuning Magnetic Nanoparticle Properties for Remote Cell Membrane Heating |
Ritchie Chen |
4.02 |
Resolution Limits of Electron-Beam Lithography towards the Atomic Scale |
Vitor Manfrinato |
4.03 |
Lithographically-Defined ZnO Nanowire Growth |
Sam Nicaise |
4.04 |
Engineering Interfacial Energetics and Recombination in Lead Sulfide Quantum Dot Photovoltaics Through Ligand Exchange |
Patrick Brown |
4.05 |
Mechanical Pressure Induced Solid State Solvation Effect in Organic Thin Films |
Wendi Chang |
4.06 |
Applications of Nanoimprinted Structures to Organic Photovoltaics |
Eletha Flores |
4.07 |
Solution-Grown ZnO Nanowire Arrays for Quantum Dot Photovoltaics |
Joel Jean |
4.08 |
Development of p-i-n Heterojunction Quantum Dot (QD) Solar Cells |
Dong Kyun Ko |
4.09 |
Multijunction organic photovoltaics with a broad spectral response |
Jill Macko |
4.10 |
Solution processed bulk heterojunction PbS:ZnO solar cells |
Andrea Maurano |
4.11 |
High-Efficiency and Brightness Near-Infrared Quantum-Dot LEDs Using Core-Shell (PbS-CdS) Colloidal Quantum-Dots |
Geoffrey Supran |
4.12 |
A Metallic Platform for Efficient Thermophotovoltaics |
Walker Chan |
4.13 |
Graphene Cathode-based ZnO Nanowire Hybrid Solar Cells |
Sehoon Chang |
4.14 |
Light Extraction in GaN Nanowires on Si for LEDs |
Jordan Chesin |
4.15 |
Control of GaN Nanowire Density, Structural and Optical Properties by Seed Particle Choice |
Xiang Zhou |
4.16 |
Microscale Electrodialysis: Concentration Profiling and Vortex Visualization |
Rhokyun Kwak |
4.17 |
Superconducting Graphene Nanodevices in Ballistic Transport Regime |
Joel Wang |
4.18 |
Improved Carbon Nanotube Ultracapacitor Electrodes for Storage and Filtering |
David Jenicek |
4.19 |
A Facile Route for 3D Aerogels from Nanostructured 1D and 2D Materials |
Sungmi Jung |
4.20 |
Application of Solvent Modified PEDOT:PSS to Graphene Electrode in Organic Solar Cells |
Hyesung Park |
4.21 |
Hydrogen-excluded Graphene Synthesis via Atmospheric Pressure Chemical Vapor Deposition (APCVD) |
Yong Cheol Shin |
4.22 |
Direct Transfer of Graphene to Flexible Substrates: the Importance of Graphene Substrate Interactions |
Yi Song |
4.23 |
Synthetic Polymeric Nanoparticle Vaccines for Immunostimulation |
Pamela Basto |
4.24 |
Thermal and Electrical Optimization of GaN Power Transistors |
William Gaviria |
4.25 |
Large-scale 2D Electronics based on Single-layer MoS2 Grown by Chemical Vapor Deposition |
Lili Yu |
4.26 |
Chemical Modification of Graphene Devices |
Xu Zhang |
4.27 |
KOH Polishing Nanoscale High Aspect Ratio Gratings |
Alexander Bruccoleri |
4.28 |
3D Nanostructures by Stacking Membranes |
Corey Fucetola |
4.29 |
High-Temperature Nanophotonics For Efficient Energy Conversion |
Veronika Rinnerbauer |
4.30 |
Probing Interfacial Electron Transfer Using Second Harmonic Generation |
Rachel Hoffman |
4.31 |
Tip-Enhanced Raman Spectroscopy of Colloidal Quantum Dots |
Anna Jolene Mork |
4.32 |
Spatially Resolved Exciton Diffusion |
Ferry Prins |
4.33 |
The Role of Morphology and Order in Thin Film Quantum Dot Electronics |
Mark Weidman |
4.34 |
Lubricant Impregnated Nanotextured Surfaces for efficient heat transfer during condensation |
Sushant Anand |
4.35 |
Non-Wetting Droplets on Superwetting Textured Surfaces |
Solomon Adera |