今天是:

韦德体育

智能醫學工程系

當前位置: 首頁 >> 韦德体育 >> 師資隊伍 >> 智能醫學工程系 >> 正文

婁存廣

發布日期:2016-02-29    點擊:

婁存廣,男,1985年生,博士,副教授,碩士研究生導師。

20127月,獲得華南師範大學光學博士學位(碩博連讀);

20129-20159月,華南師範大學生物光子學研究院,講師;

20159-今,任職于bevictor伟德官网電信學院醫工交叉研究中心,數字醫療與電子健康省重點實驗室;

20176月至今,天津大學精密儀器與光電子工程學院博士後,合作導師:姚建铨院士。

1. 研究方向

主要從事生物醫學傳感儀器與應用,智能醫療設備及信号處理,生物分子太赫茲光譜與檢測,新型光聲信号探測技術等方面研究。以第一作者/通訊作者在Physical Review Letters, Applied Physics Letters, Optics Express, Optics Letters等雜志發表SCI論文二十餘篇;授權及公開國家發明專利十餘項。

2. 科研項目

(1) 河北省重點研發計劃項目,22321701D,生鮮果蔬精準氣調存儲中多組分氣體檢測關鍵技術研究,2022.5-2024.1230萬元,在研,主持。

(2) 河北省教育廳重點項目,ZD2022072,基于表面等離激元增強吸收的石英音叉紅外-太赫茲探測與應用研究,2022.1-2024.128萬元,在研,主持。

(3) 河北省自然科學基金委,面上項目,F2021201005,表面修飾石英音叉增強紅外光熱光譜及痕量氣體探測研究,2021.1-2023.1210萬元,在研,主持。

(4) 軍事科學院國防科技創新研究院科研協作項目,XM2020CX5013,基于光聲效應及聲諧振的紅外光探測技術研究,2020.5-2022.935萬元,結題,主持。

(5) 軍委科技委國防科技創新特區項目,HJG-202001DX,太赫茲XXXX2020.5-2022.150萬元,結題,參與,排名第二。

(6) 國家自然科學基金,面上項目,61674050,基于超薄BiFeO3隧道結憶阻器的制備與類腦行為及其物理機制研究,2017.1-2020.1262萬元,結題,參與,排名第三。

(7) 國家自然科學基金青年科學基金項目,11304103,超短脈沖微波熱聲極性分子成像及其應用基礎研究,2014.1-2016.1230萬元,結題,主持。

(8) 健康養老跨界服務應用示範,國家重點研發計劃子課題,2017YFB1401203,健康養老智能交互服務關鍵技術研究,2017.12-2020.1166萬元,結題,參與,排名第二。

(9) 河北省教育廳青年拔尖人才,BJ2016005,石墨烯傳感的多生理參數健康監測系統,2016.1-2018.129萬元,結題,主持。

(10) 廣東省科技計劃項目-公益研究與能力建設專項資金,2014A020215031,納秒超短微波無損熱聲成像儀,2015.1-2017.1230萬元,結題,主持。

(11) 廣州市科技計劃項目-珠江科技新星,2014J2200028,高分辨率無損微波熱聲成像在乳腺癌檢測中的應用基礎研究,2014.4-2017.330萬元,結題,主持。

(12) 廣東省自然科學基金-博士啟動項目,S2013040016419,超短脈沖微波熱聲成像及其應用基礎研究,2013.10-2015.10,3萬元,結題,主持。

3.代表性論文及專利

[1] Cunguang Lou, Xin Liu, Yu Wang, Yu Zhang, Yifan Li, Jian-Quan Yao, Chao Chang*, Yufei Ma*, and Xiuling Liu*, Ultra-broadband optical detection from visible to terahertz range using a miniature quartz tuning fork, Optics Letters, 2022, 47(7), 1875-1878. (JCR一區,中科院二區TOP)

[2] Cunguang Lou, Enjie Liu, Tong Cheng, Jun Li, Hongzan Song, Guangwei Fan, Lei Huang, Bin Dong*, and Xiuling Liu*, Highly stretchable and self-adhesive elastomers based on polymer chain rearrangement for high-performance strain sensors, ACS Omega, 2022, 7(7), 5825-5835.

[3] Cunguang Lou, Yu Wang, Yu Zhang, Xin Liu, Lei Huang, Jianquan Yao, Chao Chang, and Xiuling Liu, Reduced Graphene Oxide/Polydimethylsiloxane as an Over-Coating Layer on Quartz Tuning Fork for Sensitive Light-Induced Thermoelastic Spectroscopy, IEEE Sensors Journal, 2022, 22(11), 10459-10464.      (中科院二區)

[4] Cunguang Lou, Xin Liu, Yu Wang, Ruikai Li*, Lei Huang, and Xiuling Liu,* Miniature quartz tuning fork-based broad spectral coverage and high detectivity infrared spectroscopy, Infrared Physics and Technology, 2022, 126:104322.

[5] Cunguang Lou, Hongjia Chen, Xitong Li, Xu Yang, Yu Zhang, Jianquan Yao, Yufei Ma*, Chao Chang*, and Xiuling Liu*, Graphene oxide and polydimethylsiloxane coated quartz tuning fork for improved sensitive near- and mid-infrared detection, Optics Express, 2021, 29(13):20190-20204. (JCR一區,中科院二區TOP)

[6] Cunguang Lou, Xitong Li, Hongjia Chen, Xu Yang, Yu Zhang, Jianquan Yao*, and Xiuling Liu*, Polymer-coated quartz tuning fork for enhancing sensitivity of laser-induced thermoelastic spectroscopy, Optics Express, 2021, 29(8):12195-12205. (JCR一區,中科院二區TOP)

[7] Cunguang Lou, Xu Yang, Xitong Li, Hongjia Chen, Chao Chang*, and Xiuling Liu*, Graphene-Enhanced Quartz Tuning Fork for Laser-Induced Thermoelastic Spectroscopy[J]. IEEE Sensors Journal, 2021, 21(8):9819-9824. (中科院二區)

[8] Cunguang Lou, Kaixuan Hou, Weitong Zhu, Xin Wang, Xu Yang, Rihe Dong, Hongjia Chen, Linjuan Guo*, Xiuling Liu*, Human Respiratory Monitoring Based on Schottky Resistance Humidity Sensors. Materials, 2020, 13(2):430. (SCI三區)

[9] Cunguang Lou, Congrui Jing, Xin Wang, Yuhao Chen, Jiantao Zhang, Kaixuan Hou, Jianquan Yao*, and Xiuling Liu*, Near-infrared tunable diode laser absorption spectroscopy-based determination of carbon dioxide in human exhaled breath, Biomedical Optics Express, 2019, 10(11):5486-5496. (JCR一區,中科院二區)

[10] Cunguang Lou, Chenyao Pang, Congrui Jing, Shuo Wang, Xufeng He, Xiaoguang Liu, Lei Huang, Feng Lin, Xiuling Liu*, and Hongrui Wang*Dynamic Balance Measurement and Quantitative Assessment Using Wearable Plantar-Pressure Insoles in a Pose-Sensed Virtual EnvironmentSensors, 2018, 18(4193):1-15. (SCI IF: 2.677)

[11] Cunguang Lou, Shuo Wang, Tie Liang, Chenyao Pang, Lei Huang, Mingtao Run and Xiuling Liu*, A Graphene-Based Flexible Pressure Sensor with Applications to Plantar Pressure Measurement and Gait Analysis, Materials, 2017, 10(1068):1-11. (JCR二區,IF: 2.654)

[12] Cunguang Lou, Ruikai Li, Zhaopeng Li, Tie Liang, Zihui Wei, Mingtao Run, Xiaobing Yan and Xiuling Liu*, Flexible Graphene Electrodes for Prolonged Dynamic ECG Monitoring, Sensors, 2016, 16(1833):1-12. (SCI IF: 2.677)

[13] Cunguang Lou, Sihua Yang, Zhong Ji, Qun Chen, Da Xing*, Ultrashort microwave-induced thermoacoustic imaging: A breakthrough in excitation efficiency and spatial resolution, Physical Review Letters, 2012, 109(21):8101-8105. (中科院一區Top, IF: 8.462)

[14] Wenzheng Ding, Cunguang Lou, Jieshan Qiu, Zongbin Zhao, Quan Zhou, Minjie Liang, Sihua Yang, Zhong Ji, and Da Xing*, Thermoacoustic imaging by electromagnetic absorption-enhanced Fe-filled carbon nanotube for tumor detection, Nanomedicine, 2016, 12:235-244. (SCI一區Top, IF: 5.72)

[15] Zhong Ji#, Cunguang Lou#(并列第一), Yujiao Shi, Wenzheng Ding, Sihua Yang, and Da Xing*, A microwave detection way by electromagnetic and elastic resonance: Breaking the bottleneck of spatial resolution in microwave imaging, Applied Physics Letters, 2015, 107(6):2281-2288. (SCI二區Top, IF: 3.411)

[16] Zhong Ji, Wenzheng Ding, Fanghao Ye, and Cunguang Lou*, Handheld Thermoacoustic Scanning System Based on a Linear Array Transducer, Ultrasonic Imaging, 2015, 1-9. (SCI IF: 1.78)

[17] Yong Fu, Zhong Ji, Wenzheng Ding, Fanghao Ye, and Cunguang Lou*, Thermoacoustic imaging over large field of view for three-dimensional breast tumor localization: A phantom study, Medical Physics, 2014, 41(110701):1-7. (SCI IF: 2.617)

[18] Cunguang Lou*, Liming Nie, Dong Xu, Effect of excitation pulse width on thermoacoustic signal characteristics and the corresponding algorithm for optimization of imaging resolution, Journal of Applied Physics, 2011, 110(0831):1-7. (SCI IF: 2.068)

[19] Cunguang Lou, Da Xing*, Photoacoustic measurement of liquid viscosity, Applied Physics Letters, 2010, 96(211102):1-3. (SCI二區Top, IF: 3.411)

[20] Cunguang Lou, Da Xing*, Temperature monitoring utilising thermoacoustic signals during pulsed microwave thermotherapy: A feasibility study, International Journal of Hyperthermia, 2010, 26(4):338-346. (SCI IF: 3.262)

[21] Wenzheng Ding, Zhong Ji, Fanghao Ye, Cunguang Lou, and Da Xing*, Near-Field Microwave Distribution Measurement With a Point Detector Base on Thermoacoustic Effect, IEEE Transactions on Microwave Theory& Techniques, 2015, 63(10):3272-3276. (SCI IF: 2.897)

[22] Wenzheng Ding, Zhong Ji, Fanghao Ye, Cunguang Lou, and Da Xing*, Shape-adapting thermoacoustic imaging system based on flexible multi-element transducer, Applied Physics Letters, 2015, 107(9):026009-375. (SCI 二區Top,IF: 3.411)

[23] Zhong Ji, Cunguang Lou, Sihua Yang, Da Xing*, Three-dimensional thermoacoustic imaging for early breast cancer detection, Medical Physics, 2012, 39(11):6738-6745. (SCI IF: 2.617)

[24] Caijun Cao, Liming Nie, Cunguang Lou, Da Xing*, The feasibility of using microwave-induced thermoacoustic tomography for detection and evaluation of renal calculi, Physics in Medicine and Biology, 2010, 55(52):5203-5212. (SCI IF: 2.742)

[25] 王鑫,荊聰蕊,侯凱旋,張建濤,婁存廣*,姚建铨,劉秀玲,基于TDLAS技術的人體呼氣末CO2在線檢測,中國激光,2020,3:298-304.

[26] 婁存廣; 劉秀玲; 荊聰蕊; 侯凱旋; 祝偉仝; 呂林洋; 王鑫; 張建濤, 一種呼出氣體中揮發性有機物分子的檢測系統及方法, 2018.11.1, 中國, 201811298889.0  (發明專利)

[27] 劉秀玲; 婁存廣; 荊聰蕊; 侯凱旋; 呂林洋; 王鑫; 張建濤; 祝偉仝, 一種去除水汽幹擾的呼出氣體光譜檢測系統及方法, 2018.11.02, 中國, 2018111298888.6  (發明專利)

[28] 劉曉光; 劉秀玲; 婁存廣; 梁鐵; 王洪瑞; 龐晨瑤; 郝沙沙; 魏帥, 人體平衡性評估系統及評估方法, 2017.1.22, 中國, CN201710053967.X (發明專利)

[29] 婁存廣; 劉秀玲; 王碩; 閏明濤; 梁鐵; 熊鵬; 劉明; 王洪瑞, 一種抗幹擾心電檢測系統、檢測方法、專用柔性石墨烯電極及其制備方法與用途, 2017.4.6, 中國, CN201710221649.X  (發明專利)

[30] 劉明; 苗榮凡; 劉秀玲; 婁存廣; 王光磊; 劉曉光, 一種3D掌紋認證方法, 2016.2.2,  CN201610074161.4  (發明專利)

[31] 劉秀玲; 婁存廣; 梁鐵; 李兆鵬; 李瑞凱; 王洪瑞, 一種多維生理參數傳感器及多維生理參數檢測系統, 2016.8.17-2026.3.1, 中國, ZL201620154405.5   (專利)

[32] 劉明; 魏曉玲; 劉秀玲; 婁存廣; 劉小光; 王光磊, 一種與RR間期無關的房顫自動檢測方法, 2016.2.6, CN201610083983.9 (發明專利)

[33] 劉秀玲; 李瑞凱; 李兆朋; 婁存廣; 梁鐵; 王洪瑞, 心電信号壓縮傳輸方法及其心電監護系統, 2018.07.01, 中國, CN201510974314.6  (發明專利)

4.獲獎情況

2022年,河北省科技進步二等獎,排名5/10。

2015年,廣東省優秀博士學位論文獎

2014年,廣州市珠江科技新星

2015年,第四屆南粵科技創新優秀學術論文二等獎

2016年,河北省高校青年拔尖人才

2016年,第二屆中國互聯網+”大學生創新創業大賽-河北省賽優秀指導教師

2017年,第三屆中國互聯網+”大學生創新創業大賽-河北省賽優秀指導教師

5. 主講課程

醫學電子學,醫學影像設備學,醫學傳感器原理與應用。

聯系方式18330253492, loucunguang@163.com


Baidu
sogou