| 课程编号 | 课程名称 | 课程级别 | 学时 |
(1)中国博士后科学基金面上项目“基于碳纳米线圈-金属纳米颗粒复合结构的多功能应变传感器的研究”(2021M700658),2021-2024,结题,主持。
(2)黑龙江省博士后科研启动基金,2024-2027,在研,主持。
(3)东北农业大学“东农学者计划”-学术骨干项目“面向电子皮肤技术的全碳基多功能柔性传感阵列的研究”,2024-2027,在研,主持。
(4)国家自然科学基金面上项目“手性螺旋碳纳米线圈的电磁波耦合机制及其多级复合吸波体的协同吸波效应研究”(52272288),2023-2026,在研,参与。
(5)辽宁省“兴辽英才”项目科技创新领军人才项目“基于碳纳米线圈的复合材料研发及其光电特性研究”(XLYC1902122),2020-2022,结题,参与。
(6)国家自然科学基金国际合作研究项目“顺排碳纳米线圈/金属纳米颗粒复合电极的构筑及其生物传感特性的研究”(51661145025),2017-2019,结题,参与。
(7)国家自然科学基金青年项目“表面等离激元增强手性的研究及其在手性传感中的应用”(11704058),2018-2020,结题,参与。
(1) C.W.
Li, S.T. Yang, Y. Guo, H. Huang, H. Chen, X.Q. Zuo, Z.
Fan, H.W. Liang, L.J. Pan*. Flexible, multi-functional sensor based
on all-carbon sensing medium with low coupling for ultrahigh-performance
strain, temperature and humidity sensing, Chemical Engineering Journal,
2021, 426: 130364. (中科院:1区,
JCR:Q1, IF:13.4)
(2) T.K.
Yuan, R.L. Yin, C.W. Li*, C. Wang, Z. Fan, L.J. Pan*.
Fully inkjet-printed dual-mode sensor for simultaneous pressure and temperature
sensing with high decoupling, Chemical Engineering Journal, 2023,
473: 145475.通讯作者 (中科院:1区,
JCR:Q1, IF:13.4)
(3) T.K.
Yuan, R.L. Yin, C.W. Li*, Z. Fan, L.J. Pan*.
Ti3C2Tx MXene-based all-resistive dual-mode sensor
with near-zero temperature coefficient of resistance for crosstalk-free pressure
and temperature detections, Chemical Engineering Journal, 2024, 487:
150396. 通讯作者 (中科院1区,JCR:Q1,
IF:13.4)
(4) T.K.
Yuan, R.L. Yin, C.W. Li*, Z. Fan, L.J. Pan*.
Geometrically asymmetric pressure sensor with precious few electrodes achieves
precise detection of both position and strength by machine learning, Chemical
Engineering Journal, 2024, 498: 155590. 通讯作者
(中科院1区,JCR:Q1,
IF:13.4)
(5) C.W. Li, L.J. Pan*, C.H. Deng, T.Z. Cong, P.H. Yin
and Z.L. Wu. A highly sensitive and wide-range pressure sensor based on a
carbon nanocoil network fabricated by an electrophoretic method. Journal
of Materials Chemistry C, 2017, 5:11892-11900. (中科院:1区,
JCR:Q1, IF:5.7)
(6) C.W.
Li, L.J. Pan*,
C.H. Deng, P. Wang, Y.Y. Huang and H. Nasir. A flexible, ultra-sensitive strain
sensor based on carbon nanocoil network fabricated by an electrophoretic
method. Nanoscale, 2017, 9:9872-9878. (中科院:1区,
JCR:Q1, IF:5.8)
(7) C.W. Li, D. M. Zhang, C.H. Deng, P. Wang, Y.P. Hu, Y.Z. Bin,
Z. Fan and L.J. Pan*. High performance strain sensor based on
buckypaper for full-range detection of human motions. Nanoscale, 2018,
10:14966-14975. (中科院:1区,
JCR:Q1, IF:5.8)
(8) S.T.
Yang#, C.W. Li#, N.X. Wen, S.H. Xu, H.
Huang, T.Z. Cong, Y.P. Zhao, Z. Fan, K. Liu, L.J. Pan*.
All-fabric-based multifunctional textile sensor for detection and
discrimination of humidity, temperature, and strain stimuli, Journal of
Materials Chemistry C, 2021, 9: 13789-13798. 共一(中科院:2区,
JCR:Q1, IF:5.7)
(9) H.
Huang, X.W. Ning, T.K. Yuan, C.W. Li*, X.Q. Zuo, Y.F.
Zhang, Z.H. Chen, C. Sun, H. Zhang, Z. Fan*, L.J. Pan*.
Hyperelastic aerogels with anisotropic layer-strut cellular structure for
piezoresistive sensor and compressible supercapacitor applications. Journal
of Energy Storage, 2024, 83:110676. 通讯作者 (中科院:2区,
JCR:Q1, IF:8.9)
(10) C.W.
Li, Y.F. Zhang, S.T. Yang, H.T. Zhao, Y. Guo, T.Z. Cong,
H. Huang, Z. Fan, H.W. Liang, L.J. Pan. A flexible tissue–carbon
nanocoil–carbon nanotube-based humidity sensor with high performance and
durability, Nanoscale, 2022,14: 7025-7038. (中科院:2区,
JCR:Q1, IF:5.8)
(11) C.W. Li, L.J. Pan*, C.H. Deng and P. Wang. CNC-Al2O3-Ti:
a new unit for micro scale strain sensing. RSC Advances, 2016, 6:107683-107688.
(中科院:2区,
JCR:Q2, IF:3.9)
(12) C.W.
Li, K. Huang, T.K. Yuan, T.Z. Cong, Z. Fan, L.J. Pan*.
Fabrication and Conductive Mechanism Analysis of Stretchable Electrodes Based
on PDMS-Ag Nanosheet Composite with Low Resistance, Stability, and Durability. Nanomaterials,
2022, 12: 2628. (中科院:3区,
JCR:Q1, IF:4.4)
(13) S.T.
Yang, C.W. Li, X.Y. Chen, Y.P. Zhao, H. Zhang, N.X. Wen, Z. Fan,
L.J. Pan*. Facile Fabrication of High-Performance Pen Ink-Decorated
Textile Strain Sensors for Human Motion Detection. ACS Appl. Mater.
Interfaces, 2020, 12: 19874−19881. (中科院:1区,
JCR:Q1, IF:8.5)
(14) S.T.
Yang, C.W. Li, T.Z. Cong,
Y.P. Zhao, S.H. Xu, P. Wang and L.J. Pan. Sensitivity tunabale strain sensor
based on carbon nanotube@carbon nanocoil hybrid networks. ACS Appl.
Mater. Interfaces, 2019, 11: 38160−38168.
(中科院:1区,
JCR:Q1, IF:8.5)
(15) C.H. Deng, C.W.
Li, P. Wang, X.W. Wang and L.J. Pan*. Revealing the linear
relationship between electrical, thermal, mechanical and structural properties
of carbon nanocoils. Physical Chemistry Chemical Physics,
2018, 20:13316-13321. (中科院:2区,
JCR:Q2, IF:2.9)
(16) H.
Huang, Y.P. Zhao, T.Z. Cong, C.W. Li, N.X. Wen, X.Q. Zuo, Y. Guo,
H. Zhang, Z. Fan, L.J. Pan*. Flexible and Alternately Layered High‐Loading
Film Electrode based on 3D Carbon Nanocoils and PEDOT:PSS for High-Energy-Density
Supercapacitor. Advanced Functional Materials, 2022, 32:2110777. (中科院:1区,
JCR:Q1, IF:18.5)
(17) X.Q.
Zuo, Y.F. Zhang, J. Tian, C. Sun, N.X. Wen, H. Zhang, C.W. Li, Z.
Fan, L.J. Pan*. Fabrication of Micro-Mesopores on Spiral Carbon Nanocoils and
Simultaneous Doping with Oxygen to Expand Microwave Absorption Bandwidth. Advanced
Functional Materials, 2024, 34:2410224. (中科院:1区,
JCR:Q1, IF:18.5)
(18) N.X.
Wen, X. Guan, X.Q. Zuo, Y. Guo, Z.H. Chen, C.W. Li, H. Xu*, L.J.
Pan*, Z. Fan*. Investigations of Morphology and Carrier Transport
Characteristics in High-Performance PEDOT:PSS/Tellurium Binary Composite Fibers
Produced via Continuous Wet-Spinning. Advanced Functional Materials,
2024, 34:2315677. (中科院:1区,
JCR:Q1, IF:18.5)
(19) Y.F.
Zhang, H. Huang, J. Tian, C.W. Li, Y. C. Jiang, Z. Fan, L.J. Pan.
Modelling electrified microporous carbon/electrolyte electrochemical interface
and unraveling charge storage mechanism by machine learning accelerated molecular
dynamics. Energy Storage Materials, 2023, 63:103069. (中科院:1区,
JCR:Q1, IF:18.9)
(20) Y.F.
Zhang, H. Huang, X.W. Ning, C.W. Li, Z. Fan, L.J. Pan. Unraveling
the mechanisms of wider negative voltage window in single-layer graphene/DMSO-H2O
hybrid electrolyte interface by the theoretical study of the sodium-ion
solvation sheath interfacial model. Energy Storage Materials,
2023, 56:542. (中科院:1区,
JCR:Q1, IF:18.9)
(21) N.X.
Wen, Z. Fan, S.T. Yang, Y.P. Zhao, T.Z. Cong, S.H. Xu, H. Zhang, J. Z. Wang, H.
Huang, C.W. Li, L.J. Pan. Highly conductive, ultra-flexible and
continuously processable PEDOT:PSS fibers with high thermoelectric properties
for wearable energy harvesting. Nano Energy, 2020, 78:105361. (中科院:1区,
JCR:Q1, IF:16.8)
(22) Y.C.
Jiang, H. Zhang, X.Q. Zuo, C. Sun, Y.F. Zhang, H. Huang, Z. Fan, C.W. Li,
L.J. Pan*. Construction of ZnO/Ni@C hollow microspheres as efficient
electromagnetic wave absorbers with thin thickness and broad bandwidth. Journal of Materials Science &
Technology, 2024, 188:62. (中科院:1区,
JCR:Q1, IF:11.2)
(23) R.L.
Yin, T.K. Yuan, C.W. Li, H. Zhang, H. Chen, N.X. Wen, X.Q. Zuo,
C. Chen*, L.J. Pan*, Z. Fan*. Highly stretchable and strain-insensitive
multilayered electromagnetic interference shielding films prepared via a simple
soaking-infiltration strategy. Carbon, 2025, 232:119809. (中科院:1区,
JCR:Q1, IF:10.5)
(24) J.
Tian, Y.F. Zhang, X.Q. Zuo, C.W. Li, Z. Fan, L.J. Pan*. Effect of
alkane adsorption on the electrochemical properties of graphene. Journal
of Materials Chemistry A, 2024, 12:20378. (中科院:2区,
JCR:Q1, IF:10.8)
(25) Y.F.
Zhang, H. Huang, J. Tian, X.W. Ning, C.W. Li, Z. Fan*, L.J. Pan*.
Understanding the origin of the wide voltage window of microporous carbon
electrodes with oxygen-containing defects by modulating surface chemistry. Journal
of Materials Chemistry A, 2023, 11:11485. (中科院:2区,
JCR:Q1, IF:10.8)
(26) N.X.
Wen, Z. Fan, S.T. Yang, Y.P. Zhao, C.W. Li, T.Z. Cong, H. Huang,
J.W. Zhang, X. Guan, L.J. Pan. High-performance stretchable thermoelectric
fibers for wearable electronics. Chemical Engineering Journal, 2021,
426: 130816. (中科院:1区,
JCR:Q1, IF:13.4)
(27) Y.
Guo, Y.P. Duan, X.J. Liu, H. Zhang, T.K. Yuan, N.X. Wen, C.W. Li,
H.F. Pang, Z. Fan, L.J. Pan. Boosting Conductive Loss and Magnetic Coupling
Based on “Size Modulation Engineering”
toward Lower-Frequency Microwave Absorption. Small, 2023,
20:2308809. (中科院:2区,
JCR:Q1, IF:13)
(28) Y.
Guo, H. Huang, Y.P. Zhao, C.W. Li, T.Z. Cong, H. Zhang, N.X. Wen,
Z. Fan, L.J. Pan. Collaboratively Intercalated 1D/3D Carbon Nanoarchitectures
in rGO-based Aerogel for Supercapacitor Electrodes with Superior Capacitance
Retention, Applied Surface Science, 2022, 596:153566. (中科院:1区,
JCR:Q1, IF:6.3)
(29) S.H. Xu, Z. Fan, C.W. Li, P. Wang, K.A. Sammed and L.J. Pan*. Investigation
of strain sensing mechanisms on the ultra-thin carbon nanotube networks with
different densities. Carbon, 2019, 155:421. (中科院:1区,
JCR:Q1, IF:10.5)
(30) C.
Sun, H. Zhang, X.Q. Zuo, Y.C. Jiang, Y.F. Zhang, C.W. Li, Z.
Fan*, L.J. Pan*. Integration of carbon microsheets and helical carbon nanocoils
for efficient microwave absorption. Chemical Engineering Journal,
2024, 498: 155630. (中科院1区,JCR:Q1,
IF:13.4)
(31) Y.Y.
Zhang, Z. Fan, N.X. Wen, S.T. Yang, C.W. Li, H. Huang, T.Z. Cong,
H. Zhang, L.J. Pan. Novel Wearable Pyrothermoelectric Hybrid Generator for
Solar Energy Harvesting. ACS Appl. Mater. Interfaces, 2020, 14: 17330−17339.
(中科院:1区,
JCR:Q1, IF: 8.5)
(32) C.H. Deng, L.J. Pan*, D.M. Zhang, C.W. Li and H. Nasir. A super
stretchable and sensitive strain sensor based on a carbon nanocoil network
fabricated by a simple peeling-off approach. Nanoscale, 2017,
9:16404-16411. (中科院:1区,
JCR:Q1, IF:5.8)
(33) Y.F.
Zhang, J. Tian, H. Huang, C. Sun, C.W. Li, G.Y. Li, D.Y. Ji, Z.
Fan*, L.J. Pan*. New insights into the role of nitrogen doping in microporous
carbon on the capacitive charge storage mechanism: From ab initio to machine
learning accelerated molecular dynamics. Carbon, 2024, 229:
119498. (中科院:2区,
JCR:Q1, IF:10.5)
(34) Y.F.
Zhang, H. Huang, X.W. Ning, C.W. Li, Z. Fan, L.J. Pan. Understanding
the relationship between the geometrical structure of interfacial water and
operating voltage window in graphene and nitrogen-doped graphene-based
supercapacitors. Carbon, 2022, 195:341. (中科院:2区,
JCR:Q1, IF:10.5)
(35) N.X.
Wen, Z. Fan, S.T. Yang, Y. Guo, J.W. Zhang, B.W. Lei, Y.P. Zhao, T.Z. Cong, C.W.
Li, Z.G. Jing, L.J. Pan. Highly Stretchable, Breathable, and Self‐Powered
Strain‐Temperature
Dual‐Functional
Sensors with Laminated Structure for Health Monitoring, Hyperthermia, and
Physiotherapy Applications. Advanced Electronic Materials, 2022,
2200680. (中科院:2区,
JCR:Q1, IF:5.3)
(36) P. Wang, L.J. Pan*, C.W. Li and J. Zheng. Highly Efficient Near-Infrared Photothermal Conversion of Single Carbon Nanocoil Indicated by Cell Ejection. Journal of Physical Chemistry C, 2018, 122:27696-27701. (中科院:2区, JCR:Q2, IF:3.3)
(37) C.H.
Deng, P. Wang, C.W. Li, X.W.
Wang, L.J. Pan*. Effect of Ethanol Soaking on the Structure and
Physical Properties of Carbon Nanocoils. Diamond and Related Materials, 2019,
97:6348. (中科院:2区,
JCR:Q1, IF:4.3)
(38) C.H. Deng, L.J. Pan*, C.W. Li, X. Fu, R.X. Cui and H.
Nasir. Helical gold nanotube film as stretchable micro/nanoscale strain sensor.
Journal
of Materials Science, 2017, 53:2181-2192. (中科院:2区,
JCR:Q2, IF:3.5)
(39) J. Qin, L.J. Pan*, C.W. Li, L.C. Xia, N. Zhou, Y.Y. Huang and Y. Zhang.
Controlled preparation of Ag nanoparticles on graphene with different amount of
defects for surface-enhanced Raman scattering. RSC Advances, 2017,
7:27105-27112. (中科院:3区,
JCR:Q2, IF:3.9)
(40) C.H. Deng, L.J. Pan, R.X. Cui, C.W. Li and J. Qin. Wearable strain sensor made of
carbonized cotton cloth. Journal of Materials Science: Materials in
Electronics, 2017, 28:3535-3541. (中科院:4区,
JCR:Q2, IF:2.8)
潘路军*,李成伟. 用宏观网状结构碳纳米线圈制成的柔性应变传感器的制备方法:中国,201510887980.6[P]. 发明类别:发明专利,授权日期:2018,06,05.
荣誉称号及获奖情况:
(1)2018年获博士研究生国家奖学金
(2)2019年获辽宁省优秀毕业生
(3)2018年获大连市三好学生
指导学生情况:
(1)指导本科生大创:“面向生理信号检测的智能可穿戴传感装置的研发”获省级资助。