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51. Mitochondria-Targeting Oxygen-Sufficient Perfluorocarbon Nanoparticles for Imaging-Guided Tumor Phototherapy

Author

Chen, Sijie, Huang, Biying, Pei, Wenjing, Wang, Long, Xu, Yan, and Niu, Chengcheng

Subjects
Membrane Potential, Mitochondrial, Fluorocarbons, Mice, Inbred BALB C, photothermal therapy, perfluorocarbon, Singlet Oxygen, IR780, Neoplasms, Experimental, Phototherapy, Xenograft Model Antitumor Assays, Mitochondria, Oxygen, Drug Delivery Systems, photodynamic therapy, International Journal of Nanomedicine, Cell Line, Tumor, mitochondria-targeting, Animals, Humans, Nanoparticles, Female, Original Research
Abstract

Sijie Chen,1– 3 Biying Huang,1,2 Wenjing Pei,1,2 Long Wang,4 Yan Xu,1,2 Chengcheng Niu1,2 1Department of Ultrasound Diagnosis, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of China; 2Research Center of Ultrasonography, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of China; 3Department of Ultrasound Diagnosis, Changsha Central Hospital, Nanhua University, Changsha, Hunan 410014, People’s Republic of China; 4Department of Orthopedics, Xiangya Hospital, Central South University, Changsha, Hunan 410008, People’s Republic of ChinaCorrespondence: Chengcheng NiuDepartment of Ultrasound Diagnosis, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of ChinaEmail niuchengcheng@csu.edu.cnBackground: Although photothermal therapy (PTT) and photodynamics therapy (PDT) have both made excellent progress in tumor therapy, the effectiveness of using PTT or PDT alone is dissatisfactory due to the limitations of the penetration depth in PTT and the hypoxic microenvironment of tumors for PDT. Combination phototherapy has currently become a burgeoning cancer treatment.Methods and Materials: In this work, a mitochondria-targeting liquid perfluorocarbon (PFC)-based oxygen delivery system was developed for the synergistic PDT/photothermal therapy (PTT) of cancer through image guiding.Results: Importantly, these nanoparticles (NPs) can effectively and accurately accumulate in the target tumor via the enhanced permeability and retention (EPR) effect.Conclusion: This approach offers a novel technique to achieve outstanding antitumor efficacy by an unprecedented design with tumor mitochondria targeting, oxygen delivery, and synergistic PDT/PTT with dual-imaging guidance.Keywords: IR780, mitochondria-targeting, perfluorocarbon, photodynamic therapy, photothermal therapy

Published
2020

52. Mitochondria-Targeting Oxygen-Sufficient Perfluorocarbon Nanoparticles for Imaging-Guided Tumor Phototherapy

Author

Chen,Sijie, Huang,Biying, Pei,Wenjing, Wang,Long, Xu,Yan, Niu,Chengcheng, Chen,Sijie, Huang,Biying, Pei,Wenjing, Wang,Long, Xu,Yan, and Niu,Chengcheng

Abstract

Sijie Chen,1– 3 Biying Huang,1,2 Wenjing Pei,1,2 Long Wang,4 Yan Xu,1,2 Chengcheng Niu1,2 1Department of Ultrasound Diagnosis, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of China; 2Research Center of Ultrasonography, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of China; 3Department of Ultrasound Diagnosis, Changsha Central Hospital, Nanhua University, Changsha, Hunan 410014, People’s Republic of China; 4Department of Orthopedics, Xiangya Hospital, Central South University, Changsha, Hunan 410008, People’s Republic of ChinaCorrespondence: Chengcheng NiuDepartment of Ultrasound Diagnosis, The Second Xiangya Hospital, Central South University, Changsha, Hunan 410011, People’s Republic of ChinaEmail niuchengcheng@csu.edu.cnBackground: Although photothermal therapy (PTT) and photodynamics therapy (PDT) have both made excellent progress in tumor therapy, the effectiveness of using PTT or PDT alone is dissatisfactory due to the limitations of the penetration depth in PTT and the hypoxic microenvironment of tumors for PDT. Combination phototherapy has currently become a burgeoning cancer treatment.Methods and Materials: In this work, a mitochondria-targeting liquid perfluorocarbon (PFC)-based oxygen delivery system was developed for the synergistic PDT/photothermal therapy (PTT) of cancer through image guiding.Results: Importantly, these nanoparticles (NPs) can effectively and accurately accumulate in the target tumor via the enhanced permeability and retention (EPR) effect.Conclusion: This approach offers a novel technique to achieve outstanding antitumor efficacy by an unprecedented design with tumor mitochondria targeting, oxygen delivery, and synergistic PDT/PTT with dual-imaging guidance.Keywords: IR780, mitochondria-targeting, perfluorocarbon, photodynamic therapy, photothermal therapy

Published
2020

54. Substitutional Doping: In Situ Oxygen Doping of Monolayer MoS 2 for Novel Electronics (Small 42/2020)

Author

Tang, Jian, primary, Wei, Zheng, additional, Wang, Qinqin, additional, Wang, Yu, additional, Han, Bo, additional, Li, Xiaomei, additional, Huang, Biying, additional, Liao, Mengzhou, additional, Liu, Jieying, additional, Li, Na, additional, Zhao, Yanchong, additional, Shen, Cheng, additional, Guo, Yutuo, additional, Bai, Xuedong, additional, Gao, Peng, additional, Yang, Wei, additional, Chen, Lan, additional, Wu, Kehui, additional, Yang, Rong, additional, Shi, Dongxia, additional, and Zhang, Guangyu, additional

Published
2020
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55. Scratching lithography for wafer-scale MoS2 monolayers

Author

Wei, Zheng, primary, Liao, Mengzhou, additional, Guo, Yutuo, additional, Tang, Jian, additional, Cai, Yongqing, additional, Chen, Hanyang, additional, Wang, Qinqin, additional, Jia, Qi, additional, Lu, Ying, additional, Zhao, Yanchong, additional, Liu, Jieying, additional, Chu, Yanbang, additional, Yu, Hua, additional, Li, Na, additional, Yuan, Jiahao, additional, Huang, Biying, additional, Shen, Cheng, additional, Yang, Rong, additional, Shi, Dongxia, additional, and Zhang, Guangyu, additional

Published
2020
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56. In Situ Oxygen Doping of Monolayer MoS 2 for Novel Electronics

Author

Tang, Jian, primary, Wei, Zheng, additional, Wang, Qinqin, additional, Wang, Yu, additional, Han, Bo, additional, Li, Xiaomei, additional, Huang, Biying, additional, Liao, Mengzhou, additional, Liu, Jieying, additional, Li, Na, additional, Zhao, Yanchong, additional, Shen, Cheng, additional, Guo, Yutuo, additional, Bai, Xuedong, additional, Gao, Peng, additional, Yang, Wei, additional, Chen, Lan, additional, Wu, Kehui, additional, Yang, Rong, additional, Shi, Dongxia, additional, and Zhang, Guangyu, additional

Published
2020
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59. A Novel FPGA-Based Architecture for Fast Automatic Target Detection in Hyperspectral Images

Author

Weiying Xie, Jie Lei, Yunsong Li, Chein-I Chang, Jintao Zhang, Huang Biying, and Lingyun Wu

Subjects
hyperspectral image, fast automatic target generation process, field-programmable gate array, high-level synthesis, Speedup, 010504 meteorology & atmospheric sciences, Computational complexity theory, Pixel, Computer science, Science, Orthographic projection, 0211 other engineering and technologies, 02 engineering and technology, 01 natural sciences, Matrix multiplication, Matrix (mathematics), High-level synthesis, General Earth and Planetary Sciences, Field-programmable gate array, Algorithm, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences
Abstract

Onboard target detection of hyperspectral imagery (HSI), considered as a significant remote sensing application, has gained increasing attention in the latest years. It usually requires processing huge volumes of HSI data in real-time under constraints of low computational complexity and high detection accuracy. Automatic target generation process based on an orthogonal subspace projector (ATGP-OSP) is a well-known automatic target detection algorithm, which is widely used owing to its competitive performance. However, ATGP-OSP has an issue to be deployed onboard in real-time target detection due to its iteratively calculating the inversion of growing matrices and increasing matrix multiplications. To resolve this dilemma, we propose a novel fast implementation of ATGP (Fast-ATGP) while maintaining target detection accuracy of ATGP-OSP. Fast-ATGP takes advantage of simple regular matrix add/multiply operations instead of increasingly complicated matrix inversions to update growing orthogonal projection operator matrices. Furthermore, the updated orthogonal projection operator matrix is replaced by a normalized vector to perform the inner-product operations with each pixel for finding a target per iteration. With these two major optimizations, the computational complexity of ATGP-OSP is substantially reduced. What is more, an FPGA-based implementation of the proposed Fast-ATGP using high-level synthesis (HLS) is developed. Specifically, an efficient architecture containing a bunch of pipelines being executed in parallel is further designed and evaluated on a Xilinx XC7VX690T FPGA. The experimental results demonstrate that our proposed FPGA-based Fast-ATGP is able to automatically detect multiple targets on a commonly used dataset (AVIRIS Cuprite Data) at a high-speed rate of 200 MHz with a significant speedup of nearly 34.3 times that of ATGP-OSP, while retaining nearly the same high detection accuracy.

Published
2019
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61. Wafer‐Scale Oxygen‐Doped MoS2 Monolayer.

Author

Wei, Zheng, Tang, Jian, Li, Xuanyi, Chi, Zhen, Wang, Yu, Wang, Qinqin, Han, Bo, Li, Na, Huang, Biying, Li, Jiawei, Yu, Hua, Yuan, Jiahao, Chen, Hailong, Sun, Jiatao, Chen, Lan, Wu, Kehui, Gao, Peng, He, Congli, Yang, Wei, and Shi, Dongxia

Subjects
MONOMOLECULAR films, CHEMICAL vapor deposition, FIELD-effect transistors, FLEXIBLE electronics, INFRARED spectroscopy, LOGIC devices
Abstract

Monolayer MoS2 is an emergent 2D semiconductor for next‐generation miniaturized and flexible electronics. Although the high‐quality monolayer MoS2 is already available at wafer scale, doping of it uniformly remains an unsolved problem. Such doping is of great importance in view of not only tailoring its properties but also facilitating many potential large‐scale applications. In this work, the uniform oxygen doping of 2 in wafer‐scale monolayer MoS2 (MoS2−xOx) with tunable doping levels is realized through an in situ chemical vapor deposition process. Interestingly, ultrafast infrared spectroscopy measurements and first‐principles calculations reveal a reduction of bandgaps of monolayer MoS2−xOx with increased oxygen‐doping levels. Field‐effect transistors and logic devices are also fabricated based on these wafer‐scale MoS2−xOx monolayers, and excellent electronic performances are achieved, exhibiting promise of such doped MoS2 monolayers. [ABSTRACT FROM AUTHOR]

Published
2021
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70. Magnetic characterization of ...-MnO... and Li...Mn...O... prepared by electrochemical cycling of LiMn...O...

Author

Jang, Young-Il and Huang, Biying

Subjects
*LITHIUM compounds, *SPINEL, *MAGNETISM, *MAGNETIC properties
Abstract

Presents information on a study which described the magnetic characterization of lambda-LiMn...O... spinel using electrochemical cycling of LiMn...O... spinel. Synthesis of LiMn...O... spinel; Experimental details; Results and discussion; Conclusions.

Published
2000
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