General

Dr. Guozhong Xing, Professor

University of Chinese Academy of Sciences

No. 19, Yuquan Road, Shijingshan District, Beijing

No. 3, Bei-Tu-Cheng West Road, Beijing

Research Areas and Interests

Non-volatile Memory
CMOS Hybrid Devices
Integration & Applications
Spintronic device physics and integrated applications
Neuromorphic computing devices and integration
High-performance edge computing chip and system

Publications

   
Papers

https://scholar.google.com/citations?hl=en&user=jxbQ1CgAAAAJ

Citations:  9345 (All)  4097 (Since 2019)

h-index:  54     (All)   37    (Since 2019)

i10-index: 114    (All)   86    (Since 2019)

The World's Top 2% Scientists (2022 & 2023) https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/6

https://jokergoooo.shinyapps.io/top2pct_scientists/

  1. Magnetic tunnel junction-based synapses and neurons for all-spin neuromorphic hardwareNature Communications, 15, 4534 (2024) https://www.nature.com/articles/s41467-024-48631-4 (Editors’ Highlights Featured Articlehttps://www.nature.com/collections/bjiiabbacg

  2. Asymmetric magnetization switching and programmable complete Boolean logic enabled by long-range intralayer Dzyaloshinskii-Moriya interaction, Nature Communications, 15, 2978 (2024)

  3. Neuromorphic Computing in Synthetic Antiferromagnets by Spin-Orbit Torque Induced Magnetic-Field-Free Magnetization Switching, Advanced Functional Materials, 2404679 (2024) DOI: 10.1002/adfm.202404679

  4. 3D dual-mode tactile sensor with decoupled temperature and pressure sensing: Toward biological skins for wearable devices and smart robotics, Sensors and Actuators B: Chemical, 404, 135255 (2024)

  5. Bioinspired Low Hysteresis Flexible Pressure Sensor Using Nanocomposites of Multiwalled Carbon Nanotubes, Silicone Rubber, and Carbon Nanofiber for Human–Computer Interaction, ACS Applied Nano Materials, https://doi.org/10.1021/acsanm.4c02631 (2024)

  6. Anti-friction gold-based stretchable electronics enabled by interfacial diffusion-induced cohesion, Nature Communications, 15, 1116 (2024)

  7. Tailoring Structural Ordering and Optical Characteristics of In0. 49Ga0. 51P Films via Zn Doping Engineering by MOCVD, Physics Letters A, 129588 (2024)

  8. Polygon Boolean operations and physical unclonable functions implemented by an Ag-embedded sodium-alginate-based memristor for image encryption/decryption, Applied Physics Letters 124, 063502 (2024)

  9. Enhanced gate biasing resilience in asymmetric and double trench MOSFETs towards generalized highly reliable power electronics, Microelectronics Reliability 154, 115342 (2024)

  10. Tilted magnetic anisotropy-tailored spin torque nano-oscillators for neuromorphic computingApplied Physics Letters, 123, 204101 (2023). https://doi.org/10.1063/5.0175446

  11. Spintronic leaky-integrate-fire spiking neurons with self-reset and winner-takes-all for neuromorphic computing, Nature Communications 14, 1068 (2023). doi.org/10.1038/s41467-023-36728-1 (Editors’ Highlights Featured Article) Cited: 31

  12. Schottky Barrier Control of Self-Polarization for a Colossal Ferroelectric Resistive Switching, ACS Nano 2023, 17, 13, 12347–12357 (2023) 
  13. Field-free domain wall spin torque nano-oscillators with multimodal real-time modulation and high-quality factor, Materials Today Electronics, 06, 100065 (2023) doi.org/10.1016/j.mtelec.2023.100065
  14. Gate-Tunable Anisotropic Oxygen Ion Migration in SrCoOx: Toward Emerging Oxide-Based Artificial Synapses, Advanced Intelligent Systems, 2200287 (2023) doi.org/10.1002/aisy.202200287
  15. Implementation of Highly Reliable and Energy-Efficient Non-Volatile In-Memory Computing Using Multi-State Domain Wall Spin-Orbit Torque Device, Advanced Intelligent Systems (Journal Cover) DOI: 10.1002/aisy.202200028 (2022)
  16. A Computing-in-memory macro with three-dimensional resistive random-access memory, Nature Electronics 5, 469–477 (2022) https://doi.org/10.1038/s41928-022-00795
  17. Tailoring skyrmion motion dynamics via magnetoelectric coupling: towards highly energy-efficient and reliable non-volatile memory applications, Journal of Applied Physics 132, 084902 (2022) (Editor's Pick)
  18. Synergy of spin-orbit torque and built-in field in magnetic tunnel junctions with tilted magnetic anisotropy: towards tunable and reliable spintronic neurons, Advanced Science (Journal Cover) DOI: 10.1002/advs.202203006 (2022)
  19. 3T2M Canted-Type x SOT-MRAM: Field-Free, High-Energy-Efficiency, and High-Read-Margin Memory toward Cache Applications, Journal of Science: Advanced Materials and Devices, https://doi.org/10.1016/j.jsamd.2022.100508 (2022)
  20. All-Electrical Control of Compact SOT-MRAM: Toward Highly Efficient and Reliable Non-Volatile In-Memory Computing, Micromachines 13, 319 (2022)
  21. Area-Efficient 1T-2D-2MTJ SOT-MRAM Cell for High Read Performance, IEEE Transactions on Circuits and Systems II: Express Briefs, 2022, doi: 10.1109/TCSII.2022.3218042
  22. Long-Term Accuracy Enhancement of Binary Neural Networks Based on Optimized Three-Dimensional Memristor Array, Micromachines 13, 308 (2022)
  23. Reflow Soldering Capability Improvement by Utilizing TaN Interfacial Layer in 1Mbit RRAM Chip, Micromachines 13, 567 (2022)
  24. Bioinspired Dual‐Mode Stretchable Strain Sensor Based on Magnetic Nanocomposites for Strain/Magnetic Discrimination, Small, 2205316 (2022)
  25. Biologically emulated flexible sensors with high sensitivity and low hysteresis: towards electronic skin to a sense of touch, Small, DOI: 10.1002/smll.202203044 (2022)
  26. Highly Stretchable, Responsive Flexible Dual-Mode Magnetic Strain Sensor, Advanced Materials Technologies, 2201439 (2022)
  27. Reducing Dzyaloshinskii-Moriya interaction and field-free spin-orbit torque switching in synthetic antiferromagnets, Nature Communications 12 (1), 3113 (2021) Cited: 25
  28. Implementation of Highly Reliable and Energy Efficient in-Memory Hamming Distance Computations in 1 Kb 1-Transistor-1-Memristor Arrays, Advanced Materials Technologies 2100745 (2021) Cited: 12
  29. Hybrid memristor-CMOS neurons for in-situ learning in fully hardware memristive spiking neural networks, Science Bulletin 66 (16), 1624-1633 (2021) Cited: 66
  30. Development of magnetic imprinted heterojunction nanoreactors: 3-Dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate, Applied Catalysis B: Environmental 268, 118433 (2020) Cited: 90
  31. Prospect of Spin-Orbitronic Devices and Their Applications, iScience 23, 101614 (2020) Cited: 30
  32. Effect of chemical composition and Cu addition on crystallization and magnetic characteristics of FeZrB alloys, Physics Letters A 384 (26), 126640 (2020)
  33. Highly sensitive capacitive flexible 3D-force tactile sensors for robotic grasping and manipulation, Journal of Physics D: Applied Physics 53 (44), 445109 (2020) Cited: 7
  34. Composition Regulation Triggered Multicolor Emissions for a Highly Sensitive Thermometer, Industrial & Engineering Chemistry Research 59 (21), 9989-9996 (2020) Cited: 7
  35. Rapid-response, low detection limit, and high-sensitivity capacitive flexible tactile sensor based on three-dimensional porous dielectric layer for wearable electronic skin, ACS Applied Materials & Interfaces 11 (43), 40716-40725 (2019) Cited: 65 
  36. Enhanced thermal conductivity and lower density composites with brick-wall microstructure based on highly oriented graphite nanoplatelet: towards manufacturable cooling, Nanotechnology 30 (24), 245204 (2019) Cited: 24
  37. Magnetic Hierarchical Photocatalytic Nanoreactors: Toward Highly Selective Cd2+ Removal with Secondary Pollution Free Tetracycline Degradation, ACS Applied Nano Materials 2 (3), 1664-1674 (2019) Cited: 21
  38. Sheath–core fiber strain sensors driven by in-situ crack and elastic effects in graphite nanoplate composites, ACS Applied Nano Materials 2 (2), 750-759 (2019) Cited: 20 
  39. Magnetic functional heterojunction reactors with 3D specific recognition for selective photocatalysis and synergistic photodegradation in binary antibiotic solutions, Journal of Materials Chemistry A 7 (23), 13986-14000 (2019) Cited: 100
  40. Tailoring highly flexible hybrid supercapacitors developed by graphite nanoplatelets-based film: toward integrated wearable energy platform building blocks, ACS Applied Energy Materials 1 (10), 5336-5346 (2018) Cited: 14
  41. Rare-earth doping engineering in nanostructured oxide: a new type of eco-friendly photocatalyst with enhanced photocatalytic characteristics, Applied Physics A 124 (9), 1-12 (2018) Cited: 8
  42. Enhanced catalytic reduction driven by Fe3O4-Au magnetic nanocomposite interface engineering: from facile preparation to recyclable application, Nanomaterials 8 (5), 353 (2018) Cited: 39
  43. Highly Efficient, Low-Cost, and Magnetically Recoverable FePt–Ag Nanocatalysts: Towards Green Reduction of Organic Dyes, Nanomaterials 8 (5), 329 (2018) Cited: 18
  44. Highly Flexible and Sensitive Wearable E-Skin Based on Nanocomposite Films in Mass Industry Production Available, ACS Applied Materials & Interfaces 9, 38745 (2017) Cited: 64
  45. Effects of amount of benzyl ether and reaction time on the shape and magnetic properties of Fe3O4 nanocrystals, Powder Technology 319, 53-59 (2017) Cited: 17
  46. Rational synthesis and tailored optical and magnetic characteristics of Fe3O4–Au composite nanoparticles, Journal of Materials Science 52 (17), 10163-10174 (2017) Cited: 24
  47. Development of ZnFe2O4@ CdS Core–Shell Nanocomposites for Enhanced Visible-Light Photocatalytic Degradation of Tetracycline, Nanoscience and Nanotechnology Letters 9 (7), 989-997 (2017) Cited: 9
  48. Formation Mechanism of Strontium Hexaferrite Compounds by Complementary Structure and Thermogravimetry Investigations, Nanoscience and Nanotechnology Letters 9 (4), 567-572 (2017)
  49. Blue Non-Doped Organic Light Emitting Diodes Based on a Novel Donor–Acceptor Molecule, Nanoscience and Nanotechnology Letters 9 (3), 247-251 (2017) 
  50. High Performance Yellow Green Organic Light-Emitting Devices Based on Ir(ppy)3, Nanoscience and Nanotechnology Letters 7 (10), 806-810 (2015) 
  51. Doping Concentration of Fluorescent Dyes on the Properties of Yellow Organic Electroluminescent Devices, Nanoscience and Nanotechnology Letters 7 (8), 661-664 (2015) 
  52. Tailoring surface phase transition and magnetic behaviors in BiFeO3 via doping engineering, Scientific Reports 5, 9128 (2015) Cited: 40 
  53. Tailoring photoluminescence in strontium aluminate phosphors using fluxing agent and activators: Rational synthesis via a facile microwave-assisted method, Materials Science in Semiconductor Processing 27, 1007-1012 (2014) Cited: 6
  54. Positive magnetoresistance in ferromagnetic Nd-doped In2O3 thin films grown by pulse laser deposition, Applied Physics Letters 104 (20), 202411 (2014) Cited: 56 
  55. Chemically strengthened protection glasses for the applications of space solar cells, AIP Advances 4 (4), 047133 (2014) Cited: 6
  56. Ferromagnetic (Mn, N)-codoped oxide nanopillars array: Experimental and computational insights, Applied Physics Letters 104 (2), 022412 (2014) Cited: 89 
  57. Tailoring the coercivity in ferromagnetic oxide thin films by 3d and 4elements codoping, Applied Physics Letters 104 (1), 012405 (2014) Cited: 69 
  58. Hybrid CuO/SnO2 nanocomposites: Towards cost-effective and high performance binder free lithium ion batteries anode materials, Appl. Phys. Lett. 105 (1), 43905 (2014) Cited: 47 
  59. Emergent ferromagnetism in zinc oxide/Al2O3 core-shell nanowires: Towards oxide spinterfaces, Applied Physics Letters 103 (2), 022402 (2013) Cited: 72 
  60. Robust room-temperature ferromagnetism with giant anisotropy in Nd-doped oxide nanowire arrays, Nano Letters 12 (8), 3994-4000 (2012) Cited: 171 
  61. High sensitivity low field magnetically gated resistive switching in CoFe2O4/La0.66Sr0.34MnO3 heterostructure, Applied Physics Letters 100 (17), 172412 (2012) Cited: 36 
  62. Defects-mediated energy transfer in red-light-emitting Eu-doped oxide nanowire arrays, The Journal of Physical Chemistry C 115 (46), 22729-22735 (2011) Cited: 152
  63. Structural characteristics, low threshold ultraviolet lasing and ultrafast carrier dynamics in high crystalline oxide nanowire arrays, Chemical Physics Letters 515 (1-3), 132-136 (2011) Cited: 21 
  64. Carrier and exciton spin dynamics in Cu-doped oxide nanowires, IEEE Photonic Society 24th Annual Meeting, 246-247 (2011)  
  65. Defect-induced magnetism in undoped wide band gap oxides: Zinc vacancies in oxide as an example, AIP Advances 1 (2), 022152 (2011) Cited: 174  
  66. Charge transfer dynamics in Cu-doped oxide nanowires, Applied Physics Letters 98 (10), 102105 (2011) Cited: 59  
  67. Structural and electrical characteristics of high quality (100) orientated- thin films grown by radio-frequency magnetron sputtering, Journal of Applied Physics 108 (8), 083710 (2010) Cited: 33  
  68. Dependence of energy transfer and photoluminescence on tailored defects in Eu-doped oxide nanosheets-based microflowers, Journal of Alloys and Compounds 504 (1), 22-26 (2010) Cited: 67 
  69. Ultrathin single-crystal oxide nanobelts: Ag-catalyzed growth and field emission property, Nanotechnology 21 (25), 255701 (2010) Cited: 91  
  70. Correlated  ferromagnetism and photoluminescence in undoped oxide nanowires, Applied Physics Letters 96 (11), 112511 (2010) Cited: 234  
  71. Bound magnetic polarons induced ferromagnetism in transition-metal-doped oxide nanostructures, 2010 3rd International Nanoelectronics Conference (INEC), 1120-1121 (2010) 
  72. Strong correlation between ferromagnetism and oxygen deficiency in Cr-doped  nanostructures, Physical Review B 79 (17), 174406 (2009) Cited: 169
  73. Comparative study of room‐temperature ferromagnetism in Cu‐doped oxide nanowires enhanced by structural inhomogeneity, Advanced Materials 20 (18), 3521-3527 (2008) Cited: 282 
  74. Effect of annealing on conductivity behavior of undoped zinc oxide prepared by rf magnetron sputtering, Journal of alloys and compounds 457 (1-2), 36-41 (2008) Cited: 108 
  75. Low-temperature processed highly efficient hole transport layer free carbon-based planar perovskite solar cells with SnO2 quantum dot electron transport layer, Materials Today Physics 13, 100204 (2020) Cited: 8 
  76. Interface Engineering via Sputtered Oxygenated CdS:O Window Layer for Highly Efficient Sb2Se3 Thin‐Film Solar Cells with Efficiency Above 7%, Solar RRL 3 (10), 1900225 (2019) Cited: 12 
  77. Local mechanical and electrical behavior in CdTe thin film solar cells revealed by scanning probe microscopy, AIP Advances 9 (8), 085108 (2019) Cited: 3 
  78. Improved stability and efficiency of CdSe/Sb2Se3 thin-film solar cells, Solar energy 188, 586-592 (2019) Cited: 17 
  79. Interfacial engineering of oxygenated chemical bath–deposited CdS window layer for highly efficient Sb2Se3 thin-film solar cells, Materials Today Physics 10, 100125 (2019) Cited: 12
  80. Establishment and experimental verification of the photoresist model considering interface slip between photoresist and concave spherical substrate, AIP Advances 5 (7), 077103 (2015) Cited: 3 
  81. Ferromagnetism and crossover of positive magnetoresistance to negative magnetoresistance in Na-doped oxide, Chemistry of Materials 27 (4), 1285-1291 (2015) Cited: 34 
  82. Zn vacancy induced ferromagnetism in K doped oxide, Journal of Materials Chemistry C 3 (45), 11953-11958 (2015) Cited: 32 
  83. Ferromagnetic ordering in Mn-doped oxide nanoparticles, Nanoscale research letters 9 (1), 1-8 (2014) Cited: 51
  84. Tailoring characteristic thermal stability of Ni-Au binary nanocrystals via structure and composition engineering: theoretical insights into structural evolution and atomic, AIP Advances 4 (11), 117132 (2014) Cited: 3 
  85. Low temperature dependent ferroelectric resistive switching in epitaxial BiFeO3 films, Applied Physics Letters 104 (13), 132904 (2014) Cited: 27 
  86. Pre-lithiation of onion-like carbon/MoS2 nano-urchin anodes for high-performance rechargeable lithium ion batteries, Nanoscale 6 (15), 8884-8890 (2014) Cited: 87 
  87. Fabrication and characterization of P–N dual acceptor doped p-type oxide thin films, Applied Surface Science 287, 484-489 (2013) Cited: 35
  88. Competition of shape and interaction patchiness for self-assembling nanoplates, Nature Chemistry 5 (6), 466-473 (2013) Cited: 280 
  89. Effects of (P, N) dual acceptor doping on band gap and p-type conduction behavior of oxide films, Journal of Applied Physics 113 (13), 133101 (2013) Cited: 32 
  90. Origin of green emission and charge trapping dynamics in oxide nanowires, Physical Review B 87 (11), 115309 (2013) Cited: 75 
  91. Engineering catalytic contacts and thermal stability: gold/iron oxide binary nanocrystal superlattices for CO oxidation, Journal of The American Chemical Society 135 (4), 1499-1505 (2013) Cited: 110 
  92. Orientation-dependent surface potential behavior in Nb-doped BiFeO3, Applied Physics Letters 100 (17), 172901 (2012) Cited: 14 
  93. Improved size-tunable synthesis of monodisperse gold nanorods through the use of aromatic additives, ACS Nano 6 (3), 2804-2817 (2012) Cited: 754 
  94. Polaronic transport and magnetism in Ag-doped oxide, Applied Physics Letters 99 (22), 222511 (2011) Cited: 75 
  95. Evidence of cation vacancy induced room temperature ferromagnetism in Li-N codoped oxide thin films, Applied Physics Letters 99 (18), 182503 (2011) Cited: 51 
  96. Ferromagnetic interaction between Cu ions in the bulk region of Cu-doped oxide nanowires, Physical Review B 84 (15), 153203 (2011) Cited: 52 
  97. Sb doping behavior and its effect on crystal structure, conductivity and photoluminescence of oxide film in depositing and annealing processes, Journal of Alloys and Compounds 509 (17), 5426-5430 (2011) Cited: 39 
  98. Metal-layer-assisted coalescence of Au nanoparticles and its effect on diameter control in vapor-liquid-solid growth of oxide nanowires, Physical Review B 83 (4), 045403 (2011) Cited: 30 
  99. CrSi2 Hexagonal Nanowebs, Journal of the American Chemical Society 132 (45), 15875-15877 (2010) Cited: 33 
  100. Rayleigh-instability-driven simultaneous morphological and compositional transformation from Co nanowires to CoO octahedra, Applied Physics Letters 97 (20), 203112 (2010) Cited: 46 
  101. Tuning ferromagnetism in  thin films by band gap and defect engineering, Applied Physics Letters 97 (10), 102506 (2010) Cited: 96 
  102. A template and catalyst-free metal-etching-oxidation method to synthesize aligned oxide nanowire arrays: NiO as an example, ACS Nano 4 (8), 4785-4791 (2010) Cited: 46 
  103. Shape-controlled fabrication of micro/nanoscale triangle, square, wire-like, and hexagon pits on silicon substrates induced by anisotropic diffusion and silicide sublimation, ACS Nano 4 (5), 2901-2909 (2010) Cited: 20 
  104. Electrode dependence of resistive switching in Mn-doped oxide: Filamentary versus interfacial mechanisms, Applied Physics Letters 96 (19), 192113 (2010) Cited: 177 
  105. Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped oxide, Physical Review Letters 104 (13), 137201 (2010) Cited: 439 
  106. Photoluminescence characteristics of high quality oxide nanowires and its enhancement by polymer covering, Applied Physics Letters 96 (2), 023111 (2010) Cited: 152 
  107. P-type electrical, photoconductive, and anomalous ferromagnetic properties of  nanowires, Applied Physics Letters 94 (11), 113106 (2009) Cited: 115 
  108. Ferroelectric transistors with nanowire channel: toward nonvolatile memory applications, ACS Nano 3 (3), 700-706 (2009) Cited: 95 
  109. Fabrication and properties of B–N codoped p-type oxide thin films, Journal of Physics D: Applied Physics 42 (6), 065101 (2009) Cited: 36 
  110. Tailoring the photoluminescence of oxide nanowires using Au nanoparticles, Nanotechnology 19 (43), 435711 (2008) Cited: 174 
  111. Cu-doped oxide nanoneedles and nanonails: morphological evolution and physical properties, The Journal of Physical Chemistry C 112 (26), 9579-9585 (2008) Cited: 211 
  112. Effects of nitrogen doping and illumination on lattice constants and conductivity behavior of zinc oxide grown by magnetron sputtering, Journal of Applied Physics 99 (12), 123510 (2006) Cited: 86 


Patents

  1. Memristor, method of calculating hamming distance, and in-memory computing integration application, US Patent 18/287,462
  2. Activation function generator based on magnetic domain wall driven magnetic tunnel junction and manufacturing method, US Patent 18/264,903
  3. Reconfigurable neuron device based on ion gate regulation and method of preparing the same, US Patent 18/263,606
  4. Three-state spintronic device, memory cell, memory array and read-write circuit, US Patent 18/261,716
  5. Multi-resistance-state spintronic device, read-write circuit, and in-memory boolean logic operator, US Patent 18/259,747
  6. Spintronic device, memory cell, memory array and read and write circuit, US Patent 18/251,699
  7. All-electrically-controlled spintronic neuron device, neuron circuit and neural network, US Patent 18/249,805
  8. Self-reference storage structure and storage and calculation integrated circuit, US Patent 18/247,446
  9. Reconfigurable puf device based on fully electric field-controlled domain wall motion, US Patent 18/061,953
  10. SOT-Driven Field-Free Switching MRAM and Array Thereof, US Patent 18/042,249
  11. Spin orbit torque magnetic random access memory cell, spin orbit torque magnetic random access memory array, and method for calculating hamming distance, US Patent App. 18/005,756
  12. Spin orbit torque magnetic random access memory cell, memory array, and memory, US Patent App. 18/003,038
  13. Magnetoresistive device, method for changing resistance state thereof, and synapse learning module, US Patent App. 18/003,913
  14. Multi-resistance-state spintronic device, read-write circuit, and in-memory boolean logic operator (US Patent 18/259,747)
  15. Magnetoresistive memory cell, write control method and memory computing module (US Patent 17/821,783)
  16. Reconfigurable puf device based on fully electric field-controlled domain wall motion (US Patent 18/061,953)
  17. Spintronic Device, SOT-MRAM Storage Cell, Storage Array and In-Memory Computing Circuit (US Patent 17/594,684)
  18. Two-dimensional Material-based Selector, Memory Unit, Array, and Method of Operating The Same (US Patent 17/998,782)
  19. SOT-Driven Field-Free Switching MRAM and Array Thereof (US Patent 18/042,249)
  20. Resistive Switching Transition Oxide: Towards High Performance Hybrid Bond Media for BSI Application (US Patent 15/834,519)
  21. Complementary Contact Bar, DTI & Poly Salicide structure to enhance QE with minimized cross-talk in BSI (US Patent 16/283,895)
  22. Filter-Free, Highly Selective and Sensitive Multispectral Imaging Sensor Pixel (US Patent UMCD20180400)
  23. Size-scaled and location-controlled growth technique for vertically aligned nanowire arrays (Type: Application; Publication No. CN102531031A)
  24. Resistive Switching Transition Oxide: Photodetector for BSI, US 16/283,895
  25. Contact Bar, DTI & Poly Salicide structure to enhance QE with minimized cross-talk in BSI, US 15/834,519
  26. Fabrication Method and Application of A New Type of Field Free SOT-MRAM, PCT/CN2020/098167
  27. Vertical Selector Configured High-density 3D SOT-MRAM, PCT/CN2020/090618
  28. High Speed and Low Power Field-Free SOT-MRAM and Boolean Logic Integration, PCT/CN2020/107726
  29. Filter-Free, Highly Selective and Sensitive Multispectral Imaging Sensor Pixel, US UMCD20180400
  30. Size-scaled and location-controlled growth technique for vertically aligned nanowire arrays, CN102531031A
  31. CMOS Image Sensors, CN110120396A
  32. A new type SOT-MRAM fabrication technology and high-reliability reading circuit, PCT/CN2021/070110
  33. Field free 3D integrated SOT-MRAM device and method for forming the same, PCT/CN2020/110217
  34. STACKED SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME, US20190181119
  35. A multi-state spintronic device and its integrated application, PCT/CN2020/141520
  36. SOT-MRAM memory cell, array and Hamming distance calculation method, 172511ZL20200301
  37. A memristor based electronic synapse, 172511ZL20200351
  38. A memristor for Hamming distance calculation in memory and its operation method, 172511ZL20210195
  39. A full electronically controlled spintronic neuron device and its integrated application, 172511ZL20210198
  40. Fabrication and integrated application of an activation function generator, 172511ZL20210274
  41. Multi-resistance state spintronic device and its integrated application, PCT/CN2020/141520