[1] [1] PORTILLA L,LOGANATHAN K,FABER H,et al.Wirelessly powered large-area electronics for the Internet of Things[J]. Nature Electronics,2023,6(1):10-17.

[2] [2] ROY S,AZAD A N M W,BAIDYA S,et al. Powering solutions for biomedical sensors and implants inside the human body:a comprehensive review on energy harvesting units,energy storage,and wireless power transfer techniques[J]. IEEE Transactions on Power Electronics,2022,37(10):12237-12263.

[3] [3] ANNAPUREDDY V,PALNEEDI H,HWANG G,et al.Magnetic energy harvesting with magnetoelectrics: an emerging technology for self-powered autonomous systems[J]. Sustainable Energy & Fuels,2017,1 (10):2039-2052.

[4] [4] LIU S,LIAO S H,WEI K X,et al. Self-biased magnetoelectric composite for energy harvesting[J].Battery Energy,2023,2(21):20230005.

[8] [8] ZHOU Y,ZHAO X,XU J,et al. Giant magnetoelastic effect in soft systems for bioelectronics[J].Nature Materials,2021,20:1670-1676.

[10] [10] DINIS H,MENDES P M. A comprehensive review of powering methods used in state-of-the-art miniaturized implantable electronic devices[J].Biosensors and Bioelectronics,2021,172:112781.

[11] [11] KOPYL S,SURMENEV R,SURMENEVA M,et al.Magnetoelectric effect:principles and applications in biology and medicine-A review[J].Materials Today Bio,2021,12:100149.

[12] [12] PALNEEDI H,ANNAPUREDDY V,PRIYA S,et al.Status and perspectives of multiferroic magnetoelectric composite materials and applications[J]. Actuators,2016,5(1):9.

[13] [13] ZHOU Y,MAURYA D,YAN Y,et al. Self-biased magnetoelectric composites:an overview and future perspectives[J].Energy Harvesting and Systems,2016,3(1):1-42.

[14] [14] SASMAL A,AROCKIARAJAN A. Recent progress in flexible magnetoelectric composites and devices for next generation wearable electronics[J].Nano Energy,2023,115:108733.

[15] [15] MAO Q,WU J E,HU Z Q,et al. Magnetoelectric devices based on magnetoelectric bulk composites[J]. Journal of Materials Chemistry C,2021,9(17):5594-5614.

[16] [16] XING Z P,XU K.Investigation of low frequency giant magnetoelectric torque effect[J].Sensors and Actuators A:Physical,2013,189:182-186.

[17] [17] GERHARDT M,ZIMOCH L,DORN C,et al. Selfpowered elementary hybrid magnetoelectric sensor[J]. Nano Energy,2023,115:108720.

[18] [18] LEE Y W,DEKA B,YOO I R,et al. Giant selfbiased magnetoelectric effect in prebiased magnetostrictive-piezoelectric laminate composites[J].Eletronic Materials Letters,2019,16(13):1-8.

[19] [19] VIDAL J V,TURUTIN A V,KUBASOV I V,et al.Dual vibration and magnetic energy harvesting with bidomain LiNbO3-based composite[J].IEEE Transactions on Ultransactions on Ultrasonics,Ferroelectrics, and Frequency Control,2020,67(6):1219-1229.

[20] [20] BIAN L X,WEN Y M,LI P,et al. Magnetoelectric transducer with high quality factor for wireless power receiving[J].Sensors and Actuators A:Physical,2009,150(2):207-211.

[21] [21] LI P,WEN Y M,LIU P G,et al. A magnetoelectric energy harvester and management circuit for wireless sensor network[J]. Sensors and Actuators A:Physical,2010,157(1):100-106.

[22] [22] LASHERAS A,GUTIéRREZ J,REIS S,et al.Energy harvesting device based on a metallic glass/PVDF magnetoelectric laminated composite[J].Smart Materials and Structures,2015,24(6):065024.

[23] [23] GHODSI A,JAFARI H,AZIZI S,et al. On the dynamics of a novel energy harvester to convert the energy of the magnetic noise into electrical power[J]. Energy,2020,207:118268.

[24] [24] O’HANDLEY R C,HUANG J K,BONO D C,et al. Improved wireless,transcutaneous power transmission for in vivo applications[J]. IEEE Sensors Journal, 2008,8(1):57-62.

[25] [25] MALLERON K,GENSBITTEL A,TALLEB H,et al. Experimental study of magnetoelectric transducers for power supply of small biomedical devices[J]. Microelectronics Journal,2019,88:184-189.

[26] [26] RUPP T,TRUONG B D,WILLIAMS S,et al. Magnetoelectric transducer designs for use as wireless power receivers in wearable and implantable applications[J].Materials,2019,12(3):512.

[27] [27] TRUONG B D,ROUNDY S. Experimentally validated model and power optimization of a magnetoelectric wireless power transfer system in free-free configuration[J].Smart Materials and Structures,2020,29:85053.

[28] [28] TRUONG B D,ANDERSEN E,CASADOS C,et al.Magnetoelectric wireless power transfer for biomedical implants:effects of non-uniform magnetic field,alignment and orientation[J].Sensors and Actuators A: Physical,2020,316:112269.

[29] [29] TRUONG B D.Power optimization of a magnetoelectric wireless power transfer system with volume constraint[J]. Sensors and Actuators A:Physical,2022,341:113226.

[30] [30] ZAEIMBASHI M,LIN H,DONG C,et al.Nano neuroRFID:A wireless implantable device based on magnetoelectric antennas[J].IEEE Journal Electro Magnetic,RF,and Microwaves in Medicine and Biology,2019,3 (3):206-215.

[31] [31] YU Z,CHEN J C,ALRASHDAN F T,et al. MagNI:A magnetoelectrically powered and controlled wireless neurostimulating implant[J].IEEE Transactions Biomedical Circuits and Systems,2020,14(6):1241-1252.

[32] [32] SINGER A,DUTTA S,LEWIS E,et al. Magnetoelectric materials for miniature,wireless neural stimulation at therapeutic frequencies[J].Neuron,2020,107(4):631-643.

[33] [33] RYU J,KANG J E,ZHOU Y,et al. Ubiquitous magneto-mechano-electric generator[J].Energy & Environmental Science,2015,8(8):2402-2408.

[34] [34] ANNAPUREDDY V,KIM M,PALNEEDI H,et al.Low-loss piezoelectric single-crystal fibers for enhanced magnetic energy harvesting with magnetoelectric composite[J].Advanced Energy Materials,2016,6(24):1601244.

[35] [35] ANNAPUREDDY V,NA S M,HWANG G T,et al.Exceeding milli-watt powering magneto-mechano- electric generator for standalone-powered electronics[J].Energy & Environmental Science,2018,11(4):818-829.

[36] [36] GHOSH S K,ROY K,MISHRA H K,et al. Rollable magnetoelectric energy harvester as a wireless IoT sensor[J].ACS Sustainable Chemistry & Engineering,2020,8(2):864-873.

[37] [37] KANG M G,SRIRAMDAS R,LEE H,et al.High power magnetic field energy harvesting through amplified magneto-mechanical vibration[J].Advanced Energy Materials,2018,8(16):1703313.

[38] [38] LEE H,SRIRAMDAS R,KUMAR P,et al.Maxim izing power generation from ambient stray magnetic fields around smart infrastructures enabling self-powered wireless devices[J].Energy & Environmental Science,2020,13(5):1462-1472.

[39] [39] HYEON D Y,NAM C,HAM S S,et al.Enhanced energy conversion performance of a magneto-mechanoelectric generator using a laminate composite made of piezoelectric polymer and metallic glass[J]. Advanced Electronic Materials,2020,7(1):2000969.

[40] [40] ANNAPUREDDY V,LEE H Y,YOON W H,et al.Enhanced magnetic energy harvesting properties of magneto-mechano-electric generator by tailored geometry[J].Applied Physics Letters,2016,109(9):093901.

[41] [41] KIM S H,THAKRE A,PATIL D R,et al.Enhancement of energy-harvesting performance of magnetomechano- electric generators through optimization of the interfacial layer[J].ACS Applied Materials & Interfaces, 2021,13(17):19983-19991.

[42] [42] KUMAR A,PARK S H,PATIL D R,et al.Effect of aspect ratio of piezoelectric constituents on the energy harvesting performance of magneto-mechano-electric generators[J].Energy,2022,239:122078.

[43] [43] SONG H,PATIL D R,YOON W H,et al.Significant power enhancement of magneto-mechano-electric generators by magnetic flux concentration[J].Energy & Environmental Science,2020,13(11):4238-4248.

[44] [44] PATIL D R,LEE S H,PARK S H,et al.Boosting the performance of magneto-mechano-electric energy generator using magnetic lens[J].Sensors and Actuators A:Physical,2022,338:113451.

[45] [45] SRIRAMDAS R,KANG M G,MENG M,et al. Large power amplification in magneto-mechano-electric harvesters through distributed forcing[J].Advanced Energy Materials,2020,10(8):1903689.

[46] [46] DONG S,ZHAI J,LI J F,et al. Multimodal system for harvesting magnetic and mechanical energy[J]. Applied Physics Letters,2008,93(10):103511.

[47] [47] XU X,ZHANG C,HAN Q,et al.Hybrid energy harvesting from mechanical vibrations and magnetic field[J].Applied Physics Letters,2018,113(1):013901.

[48] [48] GAO J Q,SUN Z C,DONG H,et al.Hybrid multimodal energy harvester based on magnetoelectric (ME) composites[J].Journal of Magnetism and Magnetic Materials,2022,547:168818.

[49] [49] ZHOU Y,YANG S C,APO D J,et al.Tunable selfbiased magnetoelectric response in homogenous laminates[J].Applied Physics Letters,2012,101(23):232905.

[50] [50] ZHOU Y,APO D J,PRIYA S.Dual-phase self-biased magnetoelectric energy harvester[J].Applied Physics Letters,2013,103(19):192909.

[51] [51] PATIL D R,ZHOU Y,KANG J E,et al.Anisotropic self-biased dual-phase low frequency magneto-mechano-electric energy harvesters with giant power densities[J].APL Materials,2014,2(4):046102.