Strategies for increasing the operating frequency range of vibration energy harvesters: a review D Zhu, J Tudor, S Beeby Measurement Science and Technology 21 (2), 022001, 2010 | 877 | 2010 |
Design and experimental characterization of a tunable vibration-based electromagnetic micro-generator D Zhu, S Roberts, MJ Tudor, SP Beeby Sensors and Actuators A: Physical 158 (2), 284-293, 2010 | 239 | 2010 |
A flexible 2.45-GHz power harvesting wristband with net system output from− 24.3 dBm of RF power SE Adami, P Proynov, GS Hilton, G Yang, C Zhang, D Zhu, Y Li, SP Beeby, ... IEEE Transactions on Microwave Theory and Techniques 66 (1), 380-395, 2017 | 174 | 2017 |
A credit card sized self powered smart sensor node D Zhu, SP Beeby, MJ Tudor, NR Harris Sensors and Actuators A: Physical 169 (2), 317-325, 2011 | 116 | 2011 |
Vibration energy harvesting using the Halbach array D Zhu, S Beeby, J Tudor, N Harris Smart Materials and Structures 21 (7), 075020, 2012 | 109 | 2012 |
Vibration energy harvesting: machinery vibration, human movement and flow induced vibration D Zhu Sustainable Energy Harvesting Technologies-Past, Present and Future 1, 22-54, 2011 | 97 | 2011 |
Closed loop frequency tuning of a vibration-based micro-generator D Zhu, S Roberts, J Tudor, S Beeby PowerMEMS, 2008 | 93 | 2008 |
A comparison of power output from linear and nonlinear kinetic energy harvesters using real vibration data SP Beeby, L Wang, D Zhu, AS Weddell, GV Merrett, B Stark, G Szarka, ... Smart Materials and Structures 22 (7), 075022, 2013 | 78 | 2013 |
Increasing output power of electromagnetic vibration energy harvesters using improved Halbach arrays D Zhu, S Beeby, J Tudor, N Harris Sensors and Actuators A: Physical 203, 11-19, 2013 | 71 | 2013 |
A novel miniature wind generator for wireless sensing applications D Zhu, S Beeby, J Tudor, N White, N Harris SENSORS, 2010 IEEE, 1415-1418, 2010 | 68 | 2010 |
Novel miniature airflow energy harvester for wireless sensing applications in buildings D Zhu, SP Beeby, MJ Tudor, NM White, NR Harris IEEE sensors journal 13 (2), 691-700, 2012 | 55 | 2012 |
A bimorph multi-layer piezoelectric vibration energy harvester D Zhu, A Almusallam, S Beeby, J Tudor, N Harris | 54 | 2010 |
Autonomous tunable energy harvester IN Ayala, D Zhu, MJ Tudor, SP Beeby Technical Digest Power MEMS 12, 49-52, 2009 | 54 | 2009 |
General model with experimental validation of electrical resonant frequency tuning of electromagnetic vibration energy harvesters D Zhu, S Roberts, T Mouille, MJ Tudor, SP Beeby Smart Materials and Structures 21 (10), 105039, 2012 | 53 | 2012 |
Energy harvesting study on single and multilayer ferroelectret foams under compressive force Z Luo, D Zhu, J Shi, S Beeby, C Zhang, P Proynov, B Stark IEEE Transactions on Dielectrics and Electrical Insulation 22 (3), 1360-1368, 2015 | 52 | 2015 |
Screen-printed piezoelectric shoe-insole energy harvester using an improved flexible PZT-polymer composites A Almusallam, RN Torah, D Zhu, MJ Tudor, SP Beeby Journal of Physics: Conference Series 476 (1), 012108, 2013 | 51 | 2013 |
Kinetic energy harvesting D Zhu, S Beeby Energy harvesting systems: principles, modeling and applications, 1-77, 2011 | 44 | 2011 |
Improving output power of piezoelectric energy harvesters using multilayer structures D Zhu, S Beeby, J Tudor, N White, N Harris Procedia engineering 25, 199-202, 2011 | 43 | 2011 |
A tunable kinetic energy harvester with dynamic over range protection IN Ayala-Garcia, D Zhu, MJ Tudor, SP Beeby Smart materials and structures 19 (11), 115005, 2010 | 43 | 2010 |
A broadband electromagnetic energy harvester with a coupled bistable structure D Zhu, SP Beeby Journal of Physics: Conference Series 476 (1), 012070, 2013 | 39 | 2013 |