EnerHarv 2024 Proceedings Data Repository

EnerHarv 2024 proceedings now made FREE and OPEN to public!!!

EnerHarv ’24 Official Proceedings Booklet (Large download ~107mb)

EnerHarv 2024 Proceedings Package – all (Large download ~252mb)
Link will redirect you to DropBox to download the proceedings. To download the folder with all presentations, select File – Download or use the down arrow at the top of the page.

EnerHarv 2024 Proceedings Package – Lecture (Large download ~107mb)
Link will redirect you to DropBox to download the proceedings. To download the folder with all presentations, select File – Download or use the down arrow at the top of the page.

EnerHarv 2024 Proceedings Package – Posters and Demos (Large download ~48mb)
Link will redirect you to DropBox to download the proceedings. To download the folder with all presentations, select File – Download or use the down arrow at the top of the page.

EnerHarv 2024 Photo Gallery

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You can download individual presentations by clicking on the titles below.

DAY 1

• OPENING REMARKS – Mike Hayes
• KEYNOTE
  • Luca Gammaitoni, UNIPG, Fundamental Physical Limits in the Energy Consumption of IoT Devices
• TRANSDUCERS (TECHNICAL SESSION 1B)
  • Mahmoud Wagih, Univ of Glasgow, RF Wireless Power Transfer: the enabler of large area electronics?
  • Carlos Mastrangelo, Univ of Utah, Energy Scavenging for Ocular Microsystems
  • Meiling Zhu, Univ of Exeter, Zero Power, Large Area Rail Track Monitoring Enabled by Electromagnetic Energy Harvesting
• ENERGY STORAGE (TECHNICAL SESSION 1C)
  • Carlos Schlabitz, TDK, A Rechargeable Solid-state SMD Battery for the Stand-alone IoT Application
  • Christian Dietrich, FastCAP, Reflowable Supercapacitors for Energy Harvesting and IoT Applications
  • Alessandro Piovano, POLITO, The Use of Recycled Materials for Producing More Sustainable Li and Na Batteries
• PANEL SESSION: SUSTAINABLE MATERIALS (PANEL 1E)
  • Davide Brunelli, Univ of Trento, Plant Microbial Fuel Cells for Sustainable Electronics
  • Cristina Rusu, RISE, Flexible Energy Harvester System
  • Giovanni Landi, ENEA, Challenges in Eco-friendly Sensor Integration in EH
  • Hani Kanaan, Dracula Tech, Printable, Lightweight and Flexible Organic-based EH Systems: Materials, Processes, and Applications

DAY 2

• OPENING REMARKS – Mike Hayes
• KEYNOTE
  • Daniela Iacopino, Tyndall, Fabrication of Green Electronic Materials and Components for Sustainable Energy Storage and Harvesting
• SUSTAINABLE MATERIALS (TECHNICAL SESSION 2B)
  • Andrea Lamberti, POLITO, Sustainable Materials for Electrochemical Energy Harvesting and Storage Devices: Development and Integration
  • Giovanni Landi, ENEA, Supercapacitors Based on Sustainable Materials from Renewable Resources
  • Daniela Iacopino, Tyndall, Green Electronic Components and Systems (ECS) White Paper Overview
• MATERIALS PACKAGING/INTEGRATION (TECHNICAL SESSION 2C)
  • Stefano Marchionna, RSE, High Performing Anodes for Post-Lithium Ion Batteries
  • Peter Woias, Univ of Freiburg, Thermal Energy Harvesting: From Low to High Delta T
  • Thomas Brown, Tor Vergata Univ of Rome, Perovskite PV for Flexible & Indoor Applications
• POWER MANAGEMENT (TECHNICAL SESSION 2D)
  • Andrea Ballo, Univ of Catania, Fully On-chip DC-DC Switched Capacitor Converters: Design and Novel Solutions for Energy Harvesting
  • Domenico Balsamo, Newcastle University, Unlocking the Potential of EH-based IoT Systems through Intermittent Computing and Cutting-Edge Energy and Time Management
  • Bruno Damien, e-peas, Optimizing Energy Harvesting Micro-power Design and Ecosystem Elements Choice for Better System Performance
• PANEL SESSION: ECOSYSTEMS (PANEL 2E)
  • Baoxing Chen, ADI, Fast-Tracking Sustainable IoT: Accelerating the Path through the Energy Harvesting Ecosystem
  • Orazio Aiello, Univ of Genoa, UBIGIOT: Ultra-Low Design-Effort, Energy-Efficient and Battery-Indifferent Sensor Node for the Green Internet of Things
  • Brian Zahnstecher, PowerRox, The Power Sources Manufacturer’s Association (PSMA): Where the Power Electronics and Power IoT Ecosystems Converge
  • Shad Roundy, Univ of Utah, ASSIST: Vigilant Health Monitoring through Self-powered Wearable Technologies
  • Valeria Nico, Univ of Limerick, CONNECT: Energy Research for Sustainable IoT Solutions
  • Alex Weddell, Univ of Southampton, The UK Energy Harvesting Network
  • Thomas Brown, Tor Vergata Univ of Rome, The Energy Harvesting Roadmap

DAY 3

• OPENING REMARKS – Roberto La Rosa
• KEYNOTE
  • Bruno Damien, e-peas, Can the Electronic Shelf Label (ESL) Market be a Target Application Market for EH?
• SYSTEM INTEGRATION/TRL PROGRESSION/REAL APPS (TECHNICAL SESSION 3B)
  • Michele Magno, ETH Zurich, Empowering the Future of IoT: Always-On Smart Sensors, Energy Harvesting, and Tiny Machine Learning
  • Roberto La Rosa, INNOITALY, Enabling the Future of Massive IoT: Overcoming Integration Challenges for Maintenance-free Wireless Sensor Nodes
  • Eoin Ahern, Tyndall, Energy Harvesting Testbed for Optimising Energy-constrained WSN Nodes and Networks
• SYSTEM INTEGRATION/TRL PROGRESSION/REAL APPS (TECHNICAL SESSION 3C)
  • Maria Doglioni, Univ of Trento, Harvesting Nature’s Power: Plant-Microbial Fuel Cells & Adaptive Self-Scaling Energy Storage for Battery-free IoT
  • Gerd vom Bogel, Fraunhofer IMS, Energy Harvesting and Power Management for a Retrofittable Current Sensor for Grid Condition Analysis
  • Elisabetta Boco, Eagleprojects, IoT Applications for Smart Cities
• PANEL SESSION: FUTURE DIRECTIONS & WRAP-UP (PANEL 3D)
  • Luca Castellini, WisePower, From R&D to Industrial Design, Paving the Way to Self-Powered IoT Commercial Adoption
  • Corrado Boragno, Univ of Genoa, The Future of Wind/Wave Energy Harvesting
  • Maeve Duffy, Univ of Galway, System-level Considerations Enable Energy Harvesting Component Optimisation
  • Mike Hayes, Tyndall; Roberto La Rosa, INNOITALY Future Directions

FUNCTIONAL DEMOS

• Combined Demo Slides
  • Lorandt Foelkel, Wurth Elektronik, enOcean Multi Sensor / Light Switch / Prototype Switch
  • Lorandt Foelkel, Wurth Elektronik, Window Handle with Wireless Transmitter
  • Lorandt Foelkel, Wurth Elektronik, Indoor Air Conditioning Monitoring
  • Lorandt Foelkel, Wurth Elektronik, Shower Water Temperature Display
  • Lorandt Foelkel, Wurth Elektronik, TEG-powered Hot Surface Sensor
  • Lorandt Foelkel, Wurth Elektronik, Energy-Harvesting-to-Go Kit
  • Eoin Ahern, Tyndall, EnTICe: Energy Harvesting Testbed with Remote Access
  • Mario Costanza, Tyndall, Optimization of Energy Harvesting-Wireless Sensor Nodes Via a Simulation Tool
  • Wenyu Peng, TU Delft, On-chip Power Management Interface for Sliding Triboelectric Nanogenerator
  • Roberto La Rosa, INNOITALY, Energy Autonomous Wireless Sensor Node for Ammonia Monitoring with LoRa Connectivity
  • Roberto La Rosa, INNOITALY, Energy Autonomous Wireless Sensor Node for Oxygen Monitoring with LoRa Connectivity
  • Yongli Wang, TDK, Smart Energy Solution for Standalone Beacons
  • Bruno Damien, e-peas, Bluetooth v5.4 Large ESL Powered with Energy Harvesting
  • Bruno Damien, e-peas, Perovskite-PV-powered Small ESL
  • Hani Kanaan, Dracula Tech, OPV, a Photodiode and Energy Source to Power the STM32U0 Microcontroller
  • Joshua Wright Ambient, Photonics, Indoor PV Application Development Kit with Consumer Application Examples

POSTERS

• Maeve Duffy, Univ of Galway, Investigating Domino Resonators for Enabling Energy Harvesting at a Distance in RFID Cards
• Ibnu Taufan, Univ of Limerick, Nonlinear Piezoelectric Vibrational Energy Harvester Using an Ortho-Planar Spring and an H-I Structure for Powering IoT Sensors
• Julia Cipo, Fraunhofer ISIT, Towards Integrated 3D Micro-Batteries Using PowderMEMS Technology (PDF of poster embargoed by author due to current paper review process, please contact direct for more info.)
• Nouman Ghafoor, Univ of Limerick, Planar Electromagnetic Vibrational Energy Harvester for IoT Applications
• Eugen Vambolt, TU Nuremberg, Performance Enhancement of a Thermoelectric Generator Using a 2D-simulation and a Physics-informed Neural Network for Autonomous-Level Monitoring of Motorized Vehicles
• Ningning Wang, Hangzhou Dianzi University, Electromagnetic Vibration Energy Harvesters for WSNs Applications
• Ningning Wang, CPSS, Introduction of CPSS and Energy Harvesting Research Activities in China
• Sebastian Bader, Mid Sweden Univ, Six-phase Variable Reluctance Energy Harvester for Smart Bearing Hub Units
• Eoin Ahern, Tyndall, Energy Optimisation Using the EnTICe Energy Harvesting Testbed with Cloud Access
• Mario Costanza, Tyndall, Power Optimization of Energy Harvesting Wireless Sensor Node Systems Via a Simulation Tool
• Gabriele Perna, UNIPG, 3D-printed Piezoelectrets Based on Foamed PLA for Energy Harvesting Applications
• Paola Tinivelli, UNIPG, An Autonomous Sensing System for Monitoring Dissolved Carbon Dioxide of Natural Waters for Geochemical Applications
• Valentin Daniel Paccoia, UNIPG, Chipless RFID for Environmental Monitoring
• Daniel Woodward, Tyndall, Ultra-wide Timing Range DTC for Ultra-Low-Power PMIC
• Michael Benegiamo, UNIPG, Design and Implementation of a WPT System for Industrial Application
• Mirco Lo Monaco, POLITO, One and Two-degrees-of-freedom Gravitational Energy Harvester Designs for Ultra-Low-Power IoT Applications
• Cristina Rusu, RISE, Energy Harvesting Feasibility for Safety Buckle Belt
• Alessandro Piovano, POLITO, New Binders and Separators with Recycled PVB: From Waste to Li- and Na-ion Batteries
• Wenyu Peng, TU Delft, Front-end Triboelectric Nanogenerator (TENG) & Back-end Power Management IC Design
• Hugo Cruz, Tyndall, Development of an Ultra-Low-Power Digital Energy-harvesting PMIC Platform
• Gabriel Christmann, CSEM, Solar Harvesting Solutions at CSEM
• Veda Nagaraja, Tyndall, INFRACHIP: A free infrastructure and technology access programme
• Marco Privitera, Univ of Catania, Sub-μW Oscillator-Less WiFi Backscattering Transmitter Reusing RF Signal for Harvesting and Sensor-Less Motion Detection with Battery-Less Smart Tag Demonstration
• Daire Joyce, Boston Scientific, Boston Scientific Medical Device Factory Asset Tracking
• Séamus Hickey, DePuy, Long Life Geolocation Solution for Orthopaedic Surgical Loaner Kits
• James Rohan, Tyndall, Microbattery Materials and Future Directions