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3. Deep Learning-Enhanced Internet of Medical Things to Analyze Brain CT Scans of Hemorrhagic Stroke Patients: A New Approach

Author

Victor Hugo C. de Albuquerque, Tao Han, Chuanyu Jia, Pedro Pedrosa Rebouças Filho, Hercules Silva, Luís Fabrício de F. Souza, Yongzhao Xu, Marcos A. Araujo Ferreira, Gabriel Bandeira Holanda, Iágson Carlos Lima Silva, and Adriell Gomes

Subjects
medicine.medical_specialty, Contextual image classification, Computer science, business.industry, Deep learning, Image segmentation, medicine.disease, medicine, Medical imaging, Segmentation, Medical physics, Artificial intelligence, Electrical and Electronic Engineering, Medical diagnosis, Transfer of learning, business, Instrumentation, Stroke
Abstract

Stroke is among the first pathologies that kill the most in the world, ranking second in deaths from illness. Each year, around 16 million people worldwide are victims of this disease, with approximately 38 % of cases brought to death. Computed Tomography (CT) is a super effective method to aid the medical diagnosis of stroke. But the analysis is subject to variations in the perception of specialists about its characteristics. Faced with the challenge of diagnosing stroke on CT images, this study proposes a fully automatic system based on Health of Things capable of classifying CT images of the skull through deep learning networks, classifying them into (Uninjured or Hemorrhagic stroke). After the image classification, Mask R-CNN segments the stroke through a learning transfer process, combined with machine learning methods. Our innovative method selected excellent results, both for classification with 100 % accuracy, and for segmentation in our best model (Mask + kNN) that reached 99.93% specificity and 99.73 accuracy, with segmentation time of 4.00 seconds, surpassing literature methods based on automatic models.

Published
2021

4. Low-Defect-Density Aluminum Nitride (AlN) Thin Films Realized by Zigzag Macrostep-Induced Dislocation Redirection

Author

Ningyang Liu, He Chenguang, Shan Zhang, Qiao Wang, Junze Li, Wei Zhao, He Longfei, Zhitao Chen, Chuanyu Jia, Wu Hualong, Zhang Kang, and Bo Shen

Subjects
Materials science, 010405 organic chemistry, business.industry, chemistry.chemical_element, General Chemistry, Nitride, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Zigzag, chemistry, Aluminium, Sapphire, Optoelectronics, General Materials Science, Thin film, Dislocation, business, Bulk crystal
Abstract

Owing to the lack of large-diameter and affordable AlN bulk crystals, high-quality AlN films grown on sapphire substrates have been intensively analyzed for the potential applications in optoelectr...

Published
2021

5. Generating green and yellow lines in Y6Si3O9N4:Ce3+,Tb3+/Dy3+ oxynitrides phosphor

Author

Hongcheng Wang, Chuanyu Jia, Xiaojiao Kang, and Wei Lü

Subjects
Materials science, Quenching (fluorescence), Photoluminescence, Biophysics, Analytical chemistry, Phosphor, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Biochemistry, Fluorescence, Atomic and Molecular Physics, and Optics, Spectral line, 0104 chemical sciences, Ion, law.invention, law, 0210 nano-technology, Luminescence, Light-emitting diode
Abstract

Tb3+/Dy3+ co-doped Y6Si3O9N4:Ce3+ oxynitride phosphors were prepared in this work. The properties of the prepared phosphors, e.g. X-ray diffraction (XRD), photoluminescence (PL) spectra, lifetime and thermal-dependent luminescence quenching were investigated systematically. Under near-UV excitation, co-doped Tb3+ and Dy3+ into Y6Si3O9N4:Ce3+ phosphor generated a narrow green line peaked at 550 nm and a yellow line peaked at 575 nm, respectively. Energy is efficiently transferred from Ce3+ to Dy3+ and Tb3+ ions according to the study results. Fluorescence decay patterns are studied as a function of Tb3+ and Dy3+ concentrations. For the new synthesized phosphors, their temperature-dependent photoluminescence properties were investigated, which demonstrates that the emission intensity at 150 ○C reduced from 100% to 32.0% measured at 30○C. Commission on illumination value of color tumble emission is also discussed in detail. This work verifies the suitable application of the new oxynitride phosphor in the LEDs.

Published
2019

6. Morvan Syndrome and Diffuse Large B-Cell Lymphoma in the Central Nervous System

Author

Michael Hong, Chao Jiang, Chuanyu Jia, Yining Yang, Jing Zhang, and Jiarui Wang

Subjects
Pathology, medicine.medical_specialty, Nerve Tissue Proteins, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, medicine, Humans, Aged, biology, business.industry, Membrane Proteins, Gene rearrangement, medicine.disease, Syringomyelia, Lymphoma, Methylprednisolone, biology.protein, Immunohistochemistry, Rituximab, Female, Isaacs Syndrome, Lymphoma, Large B-Cell, Diffuse, Antibody, business, Diffuse large B-cell lymphoma, 030217 neurology & neurosurgery, medicine.drug
Abstract

Introduction The origin of contactin-associated protein-like 2 (Caspr2) antibodies in patients with Morvan syndrome is currently unknown. This case report investigated a possible association between the production of Caspr2 antibodies and aberrant proliferation of B lymphocytes. Case report We admitted a critically ill 65-year-old female patient with a suspected infection of the central nervous system (CNS). In addition to acquired neuromyotonia and CNS involvement, Caspr2 antibodies detected in her serum led to the presumptive diagnosis of Morvan syndrome. However, steroid and immunoglobulin treatment did not result in a satisfactory therapeutic outcome. On the basis of findings from immunohistochemistry, flow cytometric analysis, and immunoglobulin/T-cell receptor gene rearrangement detection of cerebrospinal fluid cells, we also made a concurrent diagnosis of diffuse large B-cell lymphoma in the CNS of this patient. The patient then received 4 cycles of rituximab and methylprednisolone therapy with an interval of 2 weeks, which temporarily led to a near-complete remission of her symptoms. Upon follow-up, her symptoms relapsed at 3 months after the last treatment with rituximab and methylprednisolone. Conclusions This is a first reported case of a patient who was concurrently diagnosed with Morvan syndrome and diffuse large B-cell lymphoma in the CNS. Additional studies are needed to determine whether aberrantly proliferating B lymphocytes are responsible for the production of Caspr2 antibodies.

Published
2020

7. Performance improvement of InGaN LEDs by using strain compensated last quantum barrier and electron blocking layer

Author

Chuanyu Jia, Chenguang He, Qi Wang, and Zhizhong Chen

Subjects
Materials science, business.industry, Superlattice, Electron, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Active layer, law.invention, law, Band diagram, Optoelectronics, Voltage droop, Electrical and Electronic Engineering, business, Leakage (electronics), Light-emitting diode, Diode
Abstract

The influence of u-AlGaN/InGaN superlattices (SLs) last quantum barrier (LQB) and p-AlGaN/InGaN SLs electron blocking layer (EBL) on the performance of InGaN light-emitting diodes (LEDs) are analyzed experimentally and theoretically. Research results indicated that LED C with u-AlGaN/InGaN SLs LQB and p-AlGaN/InGaN SLs EBL exhibit the highest output power among the three groups of LED samples. At 200 mA, the output power of LED C is enhanced by 27.5% as compared with that of reference LED A with u-GaN LQB and p-AlGaN/GaN SLs EBL. The efficiency droop of LED C has also been suppressed effectively. At 200 mA, the efficiency droop of LED C was 28.5%, which was smaller than that of LED A 34%. By analyzing the distribution of electron/hole concentration in multiple quantum wells, it is indicated that the leakage of electrons from the active layer can be effectively reduced and the injection efficiency of holes into the active layer can be dramatically enhanced by using strain compensated AlGaN/InGaN SLs LQB and EBL. The reason is that the potential energy barriers for electrons and holes could be effectively regulated by using the strain compensated LQB and EBL, which is consistent with simulation results of energy band diagram.

Published
2021

8. A soft computing automatic based in deep learning with use of fine-tuning for pulmonary segmentation in computed tomography images

Author

Iágson Carlos Lima Silva, Francisco H. S. Silva, Yongzhao Xu, Pedro Pedrosa Rebouças Filho, Luís Fabrício de F. Souza, Adriell Gomes Marques, Victor Hugo C. de Albuquerque, Chuanyu Jia, Virgínia Xavier Nunes, and Tao Han

Subjects
business.industry, Computer science, Deep learning, Pattern recognition, Image processing, Convolutional neural network, Data set, Region growing, Medical imaging, Segmentation, Artificial intelligence, business, Cluster analysis, Software
Abstract

The segmentation of medical images is a significant challenge for computer vision and medical techniques. In the lungs, the difficulty is mainly due to the presence of lung diseases, different dimensions of the lung, and different types and configurations of medical imaging devices. Computed tomography (CT) is a tool to aid clinical diagnosis; several systems based on computer-aided diagnostics (CAD) are developed or enhanced from CT images combined with computational methods. This study proposes an innovative approach based on the generalization of models for pulmonary segmentation in CT images, using the Convolutional Neural Network Based on Mask Regions (Mask R-CNN) combined with image processing techniques, K-means clustering, region growing and Parzen window through fine-tuning. Our models achieved satisfactory results with 97% Accuracy and 98% Dice, 99% Sensitivity, and 97% Positive Predictive Value (PPV) in our best MPK model. The method was able to generalize its learning to solve different pulmonary segmentation problems in different lung CT databases. A second set of data was used, obtaining even better results. The results obtained for this second data set were: 98% Accuracy, 99% Dice, 100% Sensitivity, and 98% PPV, demonstrating the effectiveness of our method.

Published
2021

9. Multifunctional Pr3+ single doped CaLaMgTaO6: Crystal structure, thermal behavior and applications

Author

Quwei Ni, Chuanyu Jia, Xiaojiao Kang, Ruomeng Duan, Wei Lü, and Yanfei Zhao

Subjects
Photoluminescence, Materials science, business.industry, Mechanical Engineering, Doping, Metals and Alloys, Phosphor, 02 engineering and technology, Color temperature, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Mechanics of Materials, Absorption band, law, Materials Chemistry, Optoelectronics, Thermal stability, Quantum efficiency, 0210 nano-technology, business, Light-emitting diode
Abstract

This paper, for the first time, presents a comprehensive study of the structure, thermal stability and photoluminescence properties of CaLaMgTaO6:Pr3+ phosphors for LED applications. Pr3+ ions exhibits two clusters of dominant emissions peaked at 495 nm (3P0→3H4) and 657 nm (3P0→3F2) from double perovskite-structure CaLaMgTaO6 compounds. Meanwhile, the samples cover the emission wavelength of commercial blue light-emitting diode (LED) chips with high internal quantum efficiency (IQE) of 30.25% upon 450 nm excitation. The mechanism of thermal quenching for this phosphor was investigated and the corresponding activation energy ΔE was determined to be 0.23 eV. The fabricated Pr3+ single doped CaLaMgTaO6 together with a 450 nm blue LED chip is well-matched with the absorption band of photosynthesis, phototropism, and photomorphogenesis. Furthermore, this phosphor along with commercially available phosphors was applied to fabrication of 450 nm UV chip and YAG:Ce3+ emitted a well-distributed warm white light with high color rendering index (CRI) of 84.1 and a correlated color temperature (CCT) of 3914 K. All of the results indicate that this novel phosphor can compensate for the red light and has potential applications in plant cultivation and warm white LEDs field.

Published
2021

10. Improvement of Radiative Recombination Rate and Efficiency Droop of InGaN Light Emitting Diodes with In‐Component‐Graded InGaN Barrier

Author

Chuanyu Jia, Chenguang He, Zhiwen Liang, and Qi Wang

Subjects
Materials science, business.industry, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, law, Component (UML), Materials Chemistry, Optoelectronics, Voltage droop, Spontaneous emission, Electrical and Electronic Engineering, business, Light-emitting diode
Published
2021

11. A novel far-red emitting phosphor activated Ba2LuTaO6:Mn4+: Crystal structure, optical properties and application in plant growth lighting

Author

Wei Lü, Dongxiong Ling, Xiaojiao Kang, Chuanyu Jia, and Weiwei Yang

Subjects
Materials science, business.industry, Mechanical Engineering, Doping, Far-red, Phosphor, 02 engineering and technology, Crystal structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, law.invention, Mechanics of Materials, law, Optoelectronics, General Materials Science, Thermal stability, 0210 nano-technology, business, Luminescence, Excitation, Light-emitting diode
Abstract

A new, far-red emitting phosphor Ba2LuTaO6:Mn4+ had been developed for plant growth lighting. The optical and structural property of the phosphor was investigated. Upon 365 nm near-UV excitation, the luminescence of Mn4+ exhibited a broad far-red emission band peaking at about 700 nm. The concentration quenching of Mn4+ luminescence in Ba2LuTaO6 was studied and the optimal Mn4+ doping concentration was experimentally approximately 0.6 %. The mechanism of the thermal stability based on the temperature-dependent PL spectra of Ba2LuTaO6:Mn4+ were demonstrated and this phosphor shows superior thermal behavior. Finally, the Ba2LuTaO6:Mn4+ phosphor and a 400-nm LED chip were employed to produce the LED devices. The results indicate that the Ba2LuTaO6:Mn4+ phosphors showed good potential in plant cultivation LEDs.

Published
2021

12. The Effect of Nanometer‐Scale V‐Pit Layer on the Carrier Recombination Mechanisms and Efficiency Droop of GaN‐Based Green Light‐Emitting Diodes

Author

Xiduo Hu, Zhiwen Liang, Qi Wang, and Chuanyu Jia

Subjects
Materials science, Scale (ratio), business.industry, Surfaces and Interfaces, Green-light, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Materials Chemistry, Optoelectronics, Voltage droop, Nanometre, Electrical and Electronic Engineering, business, Layer (electronics), Recombination, Diode
Published
2021

13. High sensitivity fiber sensor for measurement of Cd

Author

Zhenrong, Pan, Jianxun, Feng, Xiduo, Hu, Chuanyu, Jia, and Xuguang, Huang

Abstract

We propose a novel fiber chemical sensing system based on reflective Mach-Zehnder interference with temperature calibration for the measurement of Cd

Published
2019

14. Multi-sensor edge computing architecture for identification of failures short-circuits in wind turbine generators

Author

Pedro Pedrosa Rebouças Filho, Bismark C. Torrico, Tao Han, Chuanyu Jia, Navar de Medeiros Mendonça e Nascimento, Fabricio Gonzalez Nogueira, Yongzhao Xu, and Pedro Henrique Feijo de Sousa

Subjects
0209 industrial biotechnology, Wind power, business.industry, Computer science, Real-time computing, Electric generator, 02 engineering and technology, Fault (power engineering), Predictive maintenance, Fault detection and isolation, law.invention, 020901 industrial engineering & automation, law, 0202 electrical engineering, electronic engineering, information engineering, False positive paradox, 020201 artificial intelligence & image processing, Current sensor, False positive rate, business, Software, Edge computing
Abstract

Towards connectivity and development of reliable systems, smarting sensors are vastly applied in hi-tech industries. The wind energy is a growing market that could benefit from edge processing technology by enhancing monitoring systems, decreasing downtime and guiding predictive maintenance. We proposed an embedded multi-sensor architecture to detect incipient short-circuit in wind turbine electrical generators, that is robust to both false positives and negatives. Five different sensor settings are tested in three feature extraction methods and four classifiers. An analysis of variance (ANOVA) and a Tukey’s honestly significant difference (HSD) statistical tests are used to determine which architectures should be embedded in a Raspberry Pi 3, NVIDIA Jetson TX2 and NVIDIA Xavier boards. A three current sensor setting with Fourier-MLP is the most suitable approach, achieving 81.20% of accuracy, 0% of false positive rate (FPR) and 0.08% of false negative rate (FNR), also detecting generator’s normal conditions 100% of the time. For a single sensor configuration, current sensor is the most suitable method for detecting fault or non-fault conditions, being 16 times more robust to false negatives than using an axial flux sensor. Comparing the processing time, the system embedded in a NVIDIA Xavier predicts a fault condition 37% faster than in a Raspberry Pi 3, with Fourier-MLP and using a single current sensor, thus being the most suitable configuration in fault detection.

Published
2021

15. Performance improvement of GaN-based near-UV LEDs with InGaN/AlGaN superlattices strain relief layer and AlGaN barrier

Author

Tongjun Yu, Guoyi Zhang, Chuanyu Jia, Xiaohui Feng, and Kun Wang

Subjects
010302 applied physics, Materials science, business.industry, Superlattice, 02 engineering and technology, Electron, Strain relief, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Polarization (waves), 01 natural sciences, Piezoelectricity, law.invention, Wavelength, symbols.namesake, Stark effect, law, 0103 physical sciences, symbols, Optoelectronics, General Materials Science, Electrical and Electronic Engineering, 0210 nano-technology, business, Light-emitting diode
Abstract

The carrier confinement effect and piezoelectric field-induced quantum-confined stark effect of different GaN-based near-UV LED samples from 395 nm to 410 nm emission peak wavelength were investigated theoretically and experimentally. It is found that near-UV LEDs with InGaN/AlGaN multiple quantum wells (MQWs) active region have higher output power than those with InGaN/GaN MQWs for better carrier confinement effect. However, as emission peak wavelength is longer than 406 nm, the output power of the near-UV LEDs with AlGaN barrier is lower than that of the LEDs with GaN barrier due to more serious spatial separation of electrons and holes induced by the increase of piezoelectric field. The N-doped InGaN/AlGaN superlattices (SLs) were adopted as a strain relief layer (SRL) between n-GaN and MQWs in order to suppress the polarization field. It is demonstrated the output power of near-UV LEDs is increased obviously by using SLs SRL and AlGaN barrier for the discussed emission wavelength range. Besides, the forward voltage of near-UV LEDs with InGaN/AlGaN SLs SRL is lower than that of near-UV LEDs without SRL.

Published
2016

16. The efficiency droop impact of GaN‐based LEDs on the performance of OFDM visible light communication system

Author

Jianping Wang, Tongjun Yu, Yini Zhang, Guoyi Zhang, Chuanyu Jia, and Huimin Lu

Subjects
Materials science, business.industry, Orthogonal frequency-division multiplexing, Dynamic range, Fast Fourier transform, Visible light communication, Condensed Matter Physics, Signal, law.invention, law, Optoelectronics, Voltage droop, Metalorganic vapour phase epitaxy, business, Light-emitting diode
Abstract

The physical mechanism in efficiency droop of GaN-based LEDs fabricated by metal organic chemical vapor deposition (MOCVD) was investigated by experiment and calculation. On this basis, the efficiency droop impact on the performance of orthogonal frequency division multiplexing (OFDM) visible-light communication (VLC) system was analyzed. The numerical results show that the VLC system performance decreases obviously under the impact of the LED efficiency droop. And, the performance deterioration of OFDM VLC system aggravates as FFT sampling rate increase due to signal dynamic range enlargement. Furthermore, the efficiency droop impact on the VLC performance can be alleviated by adjusting the LED operating condition. (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published
2016

17. Fast growth of crack-free thick AlN film on sputtered AlN/sapphire by introducing high-density nano-voids

Author

He Longfei, Zhang Kang, Shan Zhang, He Chenguang, Wu Hualong, Bo Shen, Junze Li, Zhitao Chen, Chuanyu Jia, Ningyang Liu, and Wei Zhao

Subjects
Materials science, Acoustics and Ultrasonics, 02 engineering and technology, medicine.disease_cause, 01 natural sciences, law.invention, law, 0103 physical sciences, Nano, medicine, Metalorganic vapour phase epitaxy, Diode, 010302 applied physics, business.industry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Sapphire, Optoelectronics, Dislocation, 0210 nano-technology, business, Contact area, Ultraviolet, Light-emitting diode
Abstract

Recently, there have been increasing demands for high-quality AlN/sapphire templates due to their applications in deep ultraviolet light-emitting diodes (DUV LEDs). To acquire a low threading dislocation density (TDD), AlN films are usually thickened to promote dislocation interaction. However, micro cracks are easily generated when their thicknesses exceed 2-3 μm, severely deteriorating device performances. In this study, we successfully fabricated a 5.6-μm-thick crack-free AlN film by employing a medium-temperature (MT) interlayer. It is revealed that high-density (1.7 × 1010 cm-2) nano-voids were self-organized above the MT interlayer, which effectively destroyed the coherence between the MT interlayer and the subsequent epilayer by reducing contact area. As a result, tensile stress in the AlN film during growth was significantly decreased to 0.18 GPa, demonstrating a 64% reduction compared with its counterpart without nano-voids. In addition, the thick AlN film with embeded nano-voids allowed dislocations to climb long distances for mutual annihilation, so the TDD of the AlN film was significantly decreased to an extremely low value of 4.7 × 107 cm-2. This technique paves the way for achieving high-performance DUV LEDs and other optoelectronic/electronic devices.

Published
2020

18. Structural, tunable emission and energy transfer of Ca9In(PO4)7:Ce3+,Tb3+/Dy3+ phosphors

Author

Wei Lü, Chuanyu Jia, Xiaojiao Kang, Yongshan Xiao, and Hongcheng Wang

Subjects
Materials science, Energy transfer, Excitation spectra, Doping, Analytical chemistry, Phosphor, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Blue emission, 0104 chemical sciences, General Materials Science, 0210 nano-technology, Luminous efficacy, Excitation, Diode
Abstract

In this paper, we have synthesized a series of ultraviolet-emitting Ca9In(PO4)7:Ce3+,Tb3+ and Ca9In(PO4)7:Ce3+,Dy3+ phosphors. The Ca9In(PO4)7:Ce3+ phosphor exhibits bright blue emission under UV excitation. The Tb3+/Dy3+ single doped Ca9In(PO4)7 can exhibit weak green and yellow emission, respectively. Based on the efficient energy transfer from Ce3+ to Tb3+/Dy3+, the luminous efficiency of Tb3+/Dy3+ in Ca9In(PO4)7:Ce3+,Tb3+ and Ca9In(PO4)7:Ce3+,Dy3+ can be remarkably promoted. The effects of Ce3+/Tb3+/Dy3+ concentration, decay curves, PL emission and excitation spectra on the energy transfer from Ce3+ to Tb3+/Dy3+ in Ca9In(PO4)7 were investigated. The experimental results demonstrated that the energy transfer efficiency could reach 21.77 and 30.3% in Ca9In(PO4)7:Ce3+,Tb3+ and Ca9In(PO4)7:Ce3+,Dy3+, respectively. This study suggests that the synthesized Ca9In(PO4)7:Ce3+,Tb3+ and Ca9In(PO4)7:Ce3+,Dy3+ compounds have potentials to be used as white light-emitting phosphors in UV light-emitting diodes.

Published
2020

19. Modulating lateral strain in GaN-based epitaxial layers by patterning sapphire substrates with aligned carbon nanotube films

Author

Zhijian Yang, Chuanyu Jia, Shoushan Fan, Zhe Wang, Tongjun Yu, Hao Long, Yang Wei, and Guoyi Zhang

Subjects
Materials science, business.industry, Nucleation, Gallium nitride, Carbon nanotube, Condensed Matter Physics, Epitaxy, Atomic and Molecular Physics, and Optics, law.invention, chemistry.chemical_compound, chemistry, Saturation current, law, Sapphire, Optoelectronics, General Materials Science, Electrical and Electronic Engineering, Thin film, business, Light-emitting diode
Abstract

A novel carbon nanotube-patterned sapphire substrate (CPSS) has been utilized for the growth of GaN material and fabrication of a InGaN/GaN light emitting diode (LED) by metal-organic vapor phase epitaxy. Different lateral strain distributions and stress reductions were observed in a GaN thin film on CPSS compared with those on a conventional sapphire substrate. Nanoheteroepitaxy induced by small size nucleation islands of about 50 nm is ascribed to this significant strain modulation. The crystalline quality of the GaN thin film was also improved, as illustrated by X-ray diffraction. Performances of 1 mm × 1 mm LEDs on CPSS were also enhanced, with an operational power increase of 37.5% and higher saturation current.

Published
2012

20. Analyses of surface temperatures on patterned sapphire substrate for the growth of GaN with metal organic chemical vapor deposition

Author

Tongjun Yu, Zheng Li, Chuanyu Jia, Zhizhong Chen, Yuxuan Jiang, Zhiyuan Yang, Guoyi Zhang, Yuebin Tao, and Zhijian Yang

Subjects
Surface (mathematics), Materials science, General Physics and Astronomy, Surfaces and Interfaces, General Chemistry, Substrate (electronics), Chemical vapor deposition, Condensed Matter Physics, Epitaxy, Finite element method, Surfaces, Coatings and Films, Forced convection, Metal, stomatognathic diseases, visual_art, visual_art.visual_art_medium, Metalorganic vapour phase epitaxy, Composite material
Abstract

The surface temperature of cone-shaped patterned sapphire substrate (PSS) in GaN epitaxial growth by MOCVD and its relation to forced convection conditions and substrate surface topography were systematically investigated. Calculations using finite element method (FEM) exhibited that increase of substrate thickness would reduce surface temperature variation on PSS in typical growth condition. A hydrodynamics model under different chamber conditions is established, suggesting that carrier gas's velocity V ∞ plays a significant role on surface temperature of PSS in comparison with planar substrate. Also, carrier gas's pressure P carrier is found to be another important factor on surface thermal distribution. Results of temperatures of surface with different pattern topographies suggested that an ideal PSS structure can confine the in-cell temperature discrepancy on surface into less than 0.4 K. Pattern scales of PSS and their influence on surface temperature variation were also discussed.

Published
2011

21. Strain effect on polarized optical properties of c -plane GaN and m -plane GaN

Author

Tongjun Yu, Chuanyu Jia, Zhixin Qin, Zhizhong Chen, Renchun Tao, and Guoyi Zhang

Subjects
Valence (chemistry), Condensed matter physics, Oscillator strength, Chemistry, Optical property, Surfaces and Interfaces, Condensed Matter Physics, Polarization (waves), Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Transverse mode, Condensed Matter::Materials Science, symbols.namesake, Strain effect, Materials Chemistry, symbols, Electrical and Electronic Engineering, Hamiltonian (quantum mechanics), Quantum well
Abstract

The polarized optical property of c-plane and m-plane GaN with varying strain was discussed by analyzing the changes of relative oscillator strength (ROS) of the three transitions related to the top three valence bands. The ROS was calculated by applying the effective-mass Hamiltonian based on k · p perturbation theory. For c-plane GaN, it was found that ROS of X> -like state and Y>-like state were superposed with each other. Especially, they increased with compressive strain, while that of |Z> decreased in the second band. For m-plane GaN under compressive strain, the first three bands were dominated by |X>, |Z> and |Y>-like states, respectively, which led to nearly linearly-polarized light emissions. With compressive strain, the ROS of |X>-like state increased more rapidly than |Z>-like state in the topmost valence band. As a result, TE mode emissions from both c-plane and m-plane GaN increased more rapidly than TM mode emission with compressive strain, leading to larger polarization degree. Experimental results of luminescences from InGaN/GaN quantum wells showed good coincidence with our theoretical calculations.

Published
2008

22. Length dependence of polarization in spontaneous edge emissions from InGaN/AlGaN MQWs laser diodes

Author

Zhijian Yang, Tongjun Yu, Chuanyu Jia, Bei Zhang, K. Xu, Xiaodong Hu, and Guoyi Zhang

Subjects
Materials science, business.industry, Surfaces and Interfaces, Electroluminescence, Condensed Matter Physics, Laser, Polarization (waves), Length dependence, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Transverse mode, law, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, business, Diode
Abstract

The polarization of spontaneous edge-emitting electroluminescence from near-UV LDs with different cavity lengths (from 400 μm to 1000 μm) was studied. It was found that TE mode dominates in InGaN/AlGaN MQWs LDs, which is consistent with the theoretical calculation results of similar MQWs. An obvious polarization decrease from P= 0.57 to 0.42 as the LD cavity length changed from 400 μm to 1000 pm was also observed, corresponding to a ratio r changing from 3.67 to 2.43, which indicated that, the TE mode attenuated more grievously than the TM mode with increasing cavity length. This is due to the inherent property of polarization selective emission from the alloys. The optical loss coefficient of TE mode was determined to be 35 cm ', while, 10 cm ' for TM mode, which is in good agreement with the results obtained from other methods.

Published
2007

23. Photoemission study of chemisorption and Fermi-level pinning at K/GaAs(100) interface with synchrotron radiation

Author

T.X. Zhao, Chuanyu Jia, P.S. Xu, M.H. Sun, Hang Ji, E.D. Lu, and C.C. Hsu

Subjects
Chemistry, Photoemission spectroscopy, Schottky barrier, Fermi level, Dangling bond, General Physics and Astronomy, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Molecular physics, Surfaces, Coatings and Films, symbols.namesake, Band bending, X-ray photoelectron spectroscopy, Chemisorption, symbols, Atomic physics, Surface states
Abstract

The adsorption of K on the n-GaAs(I 0 0) surface was investigated by X-ray photoelectron spectroscopy (XPS) and synchrotron radiation photoemission spectroscopy (SR-PES). The Ga3d and As3d core level was measured for clean and K adsorbed GaAs(I 0 0) surface. The adsorption of K induced chemical reaction between K and As, and the K-As reactant formed when the K coverage theta > I ML. The chemical reaction between K and Ga did not occur, but Ga atoms were exchanged by K atoms. From the data of band bending, the Schottky barrier is 0.70 eV. The Fermi-level pinning was not caused by defect levels. The probable reason is that the dangling bonds of surface Ga atoms were filled by the outer-shell electrons of K atoms, forming a half-filled surface state. The Fermi-level pinning was caused by this half-filled surface state. (c) 2004 Elsevier B.V. All rights reserved.

Published
2005

24. Characteristics of GaN-based light emitting diodes with different thicknesses of buffer layer grown by HVPE and MOCVD

Author

Jonathan J. D. McKendry, Robert W. Martin, Chuanyu Jia, Martin D. Dawson, Ran Liu, Erdan Gu, Guoyi Zhang, Lirong Zheng, Zhizhong Chen, Paul R. Edwards, Zhi-Jun Qiu, Michael J. Wallace, and Pengfei Tian

Subjects
010302 applied physics, Materials science, Photoluminescence, Acoustics and Ultrasonics, business.industry, Cathodoluminescence, 02 engineering and technology, Electroluminescence, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Epitaxy, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, QC350, Solid-state lighting, law, 0103 physical sciences, Optoelectronics, Metalorganic vapour phase epitaxy, 0210 nano-technology, business, Quantum well, Light-emitting diode
Abstract

GaN-based light emitting diodes (LEDs) have been fabricated on sapphire substrates with different thicknesses of GaN buffer layer grown by a combination of hydride vapor phase epitaxy and metalorganic chemical vapor deposition. We analyzed the LED efficiency and modulation characteristics with buffer thicknesses of 12 µm and 30 µm. With the buffer thickness increase, cathodoluminescence hyperspectral imaging shows that the dislocation density in the buffer layer decreases from ∼1.3X10 8 cm-2 to∼1.0 X 10 8 cm-2, and Raman spectra suggest that the compressive stress in the quantum wells is partly relaxed, which leads to a large blue shift in the peak emission wavelength of the photoluminescence and electroluminescent spectra. The combined effects of the low dislocation density and stress relaxation lead to improvements in the efficiency of LEDs with the 30 µm GaN buffer, but the electrical-to-optical modulation bandwidth is higher for the LEDs with the 12 µm GaN buffer. A rate equation analysis suggests that defect-related nonradiative recombination can help increase the modulation bandwidth but reduce the LED efficiency at low currents, suggesting that a compromise should be made in the choice of defect density.

Published
2017

25. Strain effect on optical polarization properties of a ‐plane GaN on r ‐plane sapphire

Author

Tongjun Yu, Guoyi Zhang, Chuanyu Jia, Zhijian Yang, Chao Wu, and Renchun Tao

Subjects
Diffraction, Materials science, Photoluminescence, business.industry, Oscillator strength, Optical polarization, Condensed Matter Physics, Polarization (waves), Molecular physics, Condensed Matter::Materials Science, symbols.namesake, Sapphire, symbols, Optoelectronics, Raman spectroscopy, Electronic band structure, business
Abstract

In this study, the optical polarization properties under varying strains in a-plane GaN were investigated. The valence band (VB) structure for a-plane GaN is derived from the effective-mass Hamiltonian based on k·p perturbation theory. The relative oscillator strength (ROS) calculations of the transitions related to the top three VBs near Γ point are applied to analyzing the optical polarized properties. For a-plane GaN, the main components of the first, the second and the third VBs are |Y 〉-like (y-axis // [100]), |Z 〉-like (z-axis // [0001]) and |X 〉-like (x-axis // [110]) states, respectively. Under small compressive strain along c-axis, the polarization degree increases with compressive strain increasing. According to X-ray diffraction (XRD) scans and Raman backscattering spectra, both the in-plane and out-plane strains were evaluated. Polarized photoluminescence (PL) is employed to obtain the polarization degree. The experimental results of a-plane GaN samples under different strains showed good accordance with our theoretical calculations (© 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published
2010

26. Performance improvement of VLC system by using GaN-based LEDs with strain relief layers

Author

Jianping Wang, Yini Zhang, Tongjun Yu, Huimin Lu, Chuanyu Jia, and Guoyi Zhang

Subjects
Materials science, business.industry, Light extraction in LEDs, 02 engineering and technology, Epitaxy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, 020210 optoelectronics & photonics, law, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Voltage droop, Metalorganic vapour phase epitaxy, Electrical and Electronic Engineering, business, Luminescence, Quantum well, Light-emitting diode, Diode
Abstract

The GaN-based blue light-emitting diodes (LEDs) with superlatticelike strain relief layer (SRL) and without SRL were fabricated by metal organic vapor phase epitaxy (MOVPE). The luminescence characteristics of the different LEDs were measured experimentally and calculated theoretically. It is demonstrated that the efficiency droop of GaN-based LEDs is suppressed using the SRL due to the reduction of polarization electric field in quantum wells. This is beneficial to the mitigation of LED light output power-injection current (L-I) nonlinearity. Furthermore, using the different LEDs as light source, the performance of visible-light communication (VLC) system was also investigated. The results reveal that the VLC system performance is improved when the LEDs with SRL are applied. The reason is that the transmitted signal error decreases as the LED L-I nonlinearity mitigates. As a result, the GaN-based LEDs with SRL can be applied in the VLC to improve the system performance.

Published
2016

27. Performance improvement of GaN-based LEDs with step stage InGaN/GaN strain relief layers in GaN-based blue LEDs

Author

Y.Z. Tong, Tongjun Yu, Guoyi Zhang, Yongjian Sun, Chuanyu Jia, Cantao Zhong, and Huimin Lu

Subjects
Materials science, Color, Gallium, Gallium nitride, Nitride, Electroluminescence, Indium gallium nitride, Indium, law.invention, chemistry.chemical_compound, Optics, law, Elastic Modulus, Lighting, business.industry, Equipment Design, Atomic and Molecular Physics, and Optics, Active layer, Blueshift, Equipment Failure Analysis, Semiconductors, chemistry, Optoelectronics, Quantum efficiency, Stress, Mechanical, business, Light-emitting diode
Abstract

The performance of nitride-based LEDs was improved by inserting dual stage and step stage InGaN/GaN strain relief layer (SRL) between the active layer and n-GaN template. The influences of step stage InGaN/GaN SRL on the structure, electrical and optical characteristics of GaN-based LEDs were investigated. The analysis of strain effect on recombination rate based k·p method indicated 12.5% reduction of strain in InGaN/GaN MQWs by inserting SRL with step stage InGaN/GaN structures. The surface morphology was improved and a smaller blue shift in the electroluminescence (EL) spectral with increasing injection current was observed for LEDs with step stage SRL compared with conventional LEDs. The output power of LEDs operating at 20 mA was about 15.3 mW, increased by more than 108% by using step stage InGaN/GaN SRL, which shows great potential of such InGaN/GaN SRL in modulating InGaN/GaN MQWs optical properties based on its strain relief function.

Published
2013

28. Valence subband coupling effect on polarization of spontaneous emissions from Al-rich AlGaN/AlN Quantum Wells

Author

Chuanyu Jia, Huimin Lu, Genxiang Chen, Tongjun Yu, Guoyi Zhang, and Gangcheng Yuan

Subjects
Optics and Photonics, Materials science, Valence (chemistry), Ultraviolet Rays, business.industry, Gallium, Optical polarization, Models, Theoretical, Polarization (waves), medicine.disease_cause, Atomic and Molecular Physics, and Optics, law.invention, Wavelength, Optics, law, Quantum Dots, medicine, Spontaneous emission, Electronics, Aluminum Compounds, business, Quantum well, Ultraviolet, Light-emitting diode
Abstract

The optical polarization properties of Al-rich AlGaN/AlN quantum wells (QWs) were investigated using the theoretical model based on the k·p method. Numerical results show that there is valence subband coupling which can influence the peak emission wavelength and emission intensity for TE and TM polarization components from Al-rich AlGaN/AlN QWs. Especially the valence subband coupling could be strong enough when CH1 is close to HH1 and LH1 subbands to modulate the critical Al content switching dominant emissions from TE to TM polarization. It is believed that the valence subband coupling may give important influence on polarization properties of spontaneous emissions and should be considered in designing high efficiency AlGaN-based ultraviolet (UV) LEDs.

Published
2012

29. Improvement of electrostatic discharge characteristics of InGaN/GaN MQWs light-emitting diodes by inserting an n+-InGaN electron injection layer and a p-InGaN/GaN hole injection layer

Author

Chuanyu Jia, Tongjun Yu, Guoyi Zhang, Zhe Wang, Yuzhen Tong, and Cantao Zhong

Subjects
Electron injection layer, Yield (engineering), Electrostatic discharge, Materials science, business.industry, Hole injection layer, Condensed Matter Physics, Acceptor, Capacitance, Electronic, Optical and Magnetic Materials, law.invention, law, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, business, Layer (electronics), Light-emitting diode
Abstract

To improve the electrostatic discharge properties of InGaN/GaN LEDs, an n+-InGaN electron injection layer and a p-InGaN/GaN hole injection layer were inserted beneath and above the InGaN/GaN MQWs. The influences of activated donor concentration in n+-InGaN and acceptor concentration in p-InGaN/GaN and on the depletion width and the internal capacitance of GaN-based n+-P LED have been investigated. Our research results indicated that the capacitance of GaN-based n+-P LED is mainly determined by the depletion width which is dependent on the activated acceptor concentration NA in the p-InGaN/GaN hole injection layer. The relationship between the internal capacitance of InGaN–LEDs and the electrostatic discharge (ESD) properties was also investigated. It was found that the LEDs with large internal capacitance were more resistant to external ESD impulses. With optimized LED structures with n+-InGaN layer and a p-InGaN/GaN SLs, the HBM-ESD pass yield at −1500 V reached 95%, much higher than the value of 15% in reference samples without inserting layers above.

Published
2012

30. High quality GaN epilayers grown on carbon nanotube patterned sapphire substrate by metal–organic vapor phase epitaxy

Author

Zhijian Yang, Chuanyu Jia, Zhe Wang, Yang Wei, Hao Long, Guoyi Zhang, Tongjun Yu, and Shoushan Fan

Subjects
Materials science, Scanning electron microscope, business.industry, Nanotechnology, General Chemistry, Carbon nanotube, Condensed Matter Physics, Epitaxy, law.invention, Transmission electron microscopy, law, Saturation current, Phase (matter), Sapphire, Optoelectronics, General Materials Science, Dislocation, business
Abstract

Aligned carbon nanotube films were utilized to pattern a c-plane sapphire substrate. High quality GaN was obtained by epitaxy growth on carbon nanotube patterned sapphire substrates (CPSS) by a metal–organic vapor phase epitaxy system. Results of X-ray diffraction and transmission electron microscopy (TEM) confirmed the improvement of crystalline quality of GaN by introduction of the carbon nanotube film. A large number of voids with sizes of tens to hundreds of nanometers were observed on carbon nanotubes by scanning electron microscopy (SEM) and TEM. The dislocation annihilation around voids was believed to be helpful for the reduction of dislocation density. Performance of light-emitting diodes manufactured on CPSS was also clearly improved, as 15% enhancement of luminous intensity at 20 mA, and 50% delay of saturation current from 80 mA to 120 mA.

Published
2012

31. Polarization of edge emission from III-nitride light emitting diodes of emission wavelength from 395to455nm

Author

Tongjun Yu, Guoyi Zhang, Chuanyu Jia, Sen Mu, Yaobo Pan, Zhijian Yang, Zhixin Qin, and Zhizhong Chen

Subjects
Materials science, Physics and Astronomy (miscellaneous), business.industry, Wide-bandgap semiconductor, chemistry.chemical_element, Nitride, Electroluminescence, Polarization (waves), law.invention, Wavelength, Optics, chemistry, law, Optoelectronics, business, Luminescence, Indium, Light-emitting diode
Abstract

Polarization-resolved edge-emitting electroluminescence of InGaN∕GaN multiple quantum well (MQW) light emitting diodes (LEDs) from 395to455nm was measured. Polarization ratio decreased from 3.2 of near-ultraviolet LEDs (395nm) to 1.9 of blue LEDs (455nm). Based on TE mode dominant emissions in InGaN∕GaN MQWs, compressive strain in well region favors TE mode, indium induced quantum-dot-like behavior leads to an increased TM component. As wavelength increased, indium enhanced quantum-dot-like behavior became obvious and E‖C electroluminescence signal increased thus lower polarization ratio. Electroluminescence spectrum shifts confirmed that quantum dotlike behaviors rather than strain might be dominant in modifying luminescence mode of InGaN∕GaN MQWs from near ultraviolet to blue.

Published
2007

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