逄金波 - 济南大学 - 前沿交叉科学研究院

个人简介

工作经历 2018年，以济南大学校聘A3岗人才引进，加入国家杰青刘宏教授团队，历任讲师、副教授、校特聘教师A3岗、硕士生导师，在二维材料的可控生长及光电器件、智能传感和新能源应用等方向开展科研工作。 2017.4-2017.12 德国莱布尼茨固态与材料研究所，博士后，导师：Mark H Rummeli教授（英国皇家化学会会士，英国物理学会会士）、Thomas Geming研究员（德国电镜学会秘书长）教育背景 2013.4-2017.3 德国德累斯顿工业大学（全球Top200高校），材料科学，博士，导师：Gianaurelio Cuniberti教授，欧洲科学院院士、欧洲人文与自然科学院院士、德国国家科学与工程院院士、美国物理学会会士； 2011.9-2013.3 德国维尔茨堡大学物理化学研究助理，导师：Tobias Hertel 教授（德国马普学会弗里茨•哈伯研究所博士，师从诺贝尔奖得主Gerhard Ertl教授）； 2008.9-2011.7, 南开大学光电所，微电子与固体电子学，硕士，优秀毕业生（10%） 2004.9-2008.7, 青岛大学，电子信息科学与技术，学士，优秀毕业生（10%）项目：购置了专用实验设备价值150余万元、高层次人才启动费20万元。主持山东省优秀青年基金（50万元）、国家自然科学基金（23万元）、山东省自然科学基金（10万元）和国家重点实验室开放课题2项（20万元），作为骨干参与山东省重大创新工程子课题（第二位）（100万元）、国家自然科学基金面上项目、中德科学中心基金项目、德国科学基金委项目、德国精英研究集群项目、波兰科学基金项目等国内国际科研项目。

研究领域

课题组研究方向为热力学与动力学调控二维材料的精确生长及范德华异质结组装、医养健康传感、双碳新能源转换与存储等，涵盖石墨烯、二硒化钨、硫化铂、二硒化钯等

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

J. Pang*, S. Zhang, M. H. Rümmeli, H. Liu, W. Zhou, Evolving MXene species, The Innovation Materials 2023, 1, 100027. doi. 10.59717/j.xinn-mater.2023.100027 (进化中的MXene物种) J. Yang, Y. Liu, E.-Y. Wang, J. Pang, S. Huang, T. Gemming, J. Bi, A. Bachmatiuk, H. Jia, S.-X. Hu, C. Jiang, H. Liu, G. Cuniberti, W. Zhou, M. H. Rümmeli, Modulating p type doping of two dimensional material palladium diselenide, Nano Res. 2023, 10.1007/s12274. doi. 10.1007/s12274-023-6196-7 (二维材料量化掺杂策略) L. Liu, S. Huang, W. Shi, X. Sun, J. Pang, Q. Lu, Y. Yang, L. Xi, L. Deng, S. Oswald, Y. Yin, L. Liu, L. Ma, O. G. Schmidt, Y. Shi, L. Zhang, Single "Swiss-roll" microelectrode elucidates the critical role of iron substitution in conversion-type oxides, Sci. Adv. 2022, 8, eadd6596. doi. 10.1126/sciadv.add6596 (单个“瑞士卷”微电极阐明了铁替代在转化型氧化物中的关键作用) Y. Li, S. Huang, S. Peng, H. Jia, J. Pang*, B. Ibarlucea*, C. Hou, Y. Cao, W. Zhou, H. Liu*, G. Cuniberti, Toward Smart Sensing by MXene, Small 2023, 2206126. doi. 10.1002/smll.202206126 (迈向 MXene 的智能传感) (内封底) J. Pang*, S. Peng, C. Hou, H. Zhao, Y. Fan, C. Ye, N. Zhang, T. Wang, Y. Cao, W. Zhou*, D. Sun, K. Wang, M. H. Rummeli*, H. Liu*, G. Cuniberti, Applications of Graphene in Five Senses, Nervous System, and Artificial Muscles, ACS Sens. 2023, 10.1021/acssensors.2c02790. doi. 10.1021/acssensors.2c02790 (石墨烯在五感、神经系统和人造肌肉中的应用) Pang, J.* , Chongyang Hou, Hong Liu, Large-area growth of high-quality transition metal dichalcogenides for optoelectronics and electronics, Proc. SPIE 2023, 12565, 125652Z; doi. 10.1117/12.2662939. (用于光电子和电子学的高品质过渡金属二硫属化物的大面积生长) A. Parichenko, S. Huang, J. Pang, B. Ibarlucea, G. Cuniberti, Recent advances in 2D-materials based electronic noses, TrAC Trend. Anal. Chem. 2023, 166, 117185. doi. 10.1016/j.trac.2023.117185 (基于二维材料的电子鼻的最新进展) J. Pang*, S. Peng, C. Hou, X. Wang, T. Wang, Y. Cao, W. Zhou, D. Sun, K. Wang, M. H. Rümmeli*, G. Cuniberti, H. Liu*, Applications of MXenes in human-like sensors and actuators, Nano Res. 2023, 16, 5767–5795. doi. 10.1007/s12274-022-5272-8 (MXenes 在类人传感器和执行器中的应用) J. Zhou, J. Zhu, W. He, Y. Cao*, J. Pang*, J. Ni, J. Zhang, Selective preferred orientation for high-performance antimony selenide thin-film solar cells via substrate surface modulation, J. Alloy Compd. 2023, 938, 168593. doi. 10.1016/j.jallcom.2022.168593 (通过衬底表面调制的高性能硒化锑薄膜太阳能电池的选择性优选取向) Pang, J.* Controlled growth of high-quality transition metal dichalcogenides for optoelectronics and electronics, ACS Fall Meeting 2022, Aug 21-Aug 25, 2022; . (高质量过度金属硫族化合物二维材料的可控生长及光电子和电子应用) Cao, Y.; Liu, C.; Yang, T.; Zhao, Y.; Na, Y.; Jiang, C.; Zhou, J.; Pang, J.*; Liu, H.; Rummeli, M. H.; Zhou, W.; Cuniberti, G. Gradient bandgap modification for highly efficient carrier transport in antimony sulfide-selenide tandem solar cells. Sol. Energy Mater. Sol. Cells 2022, 246, 111926. doi: 10.1016/j.solmat.2022.111926. (硫化锑硒化物串联太阳能电池高效载流子传输的梯度带隙修正) Cao, Y.; Qu, P.; Wang, C.; Zhou, J.*; Li, M.; Yu, X.*; Yu, X.; Pang, J.*; Zhou, W.; Liu, H.*; Cuniberti, G. Epitaxial Growth of Vertically Aligned Antimony Selenide Nanorod Arrays for Heterostructure Based Self‐Powered Photodetector. Adv. Opt. Mater. 2022, 2200816. doi: 10.1002/adom.202200816. (外延法生长硒化锑纳米棒阵列用于异质结自供能光电探测器) Xia, Q.; Li, X.; Wang, K.; Li, Z.; Liu, H.; Wang, X.; Ye, W.; Li, H.; Teng, X.; Pang, J.; Zhang, Q.; Ge, C.; Gu, L.; Miao, G.-x.; Yan, S.; Hu, H.; Li, Q. Unraveling the Evolution of Transition Metals during Li Alloying–Dealloying by In-Operando Magnetometry. Chem. Mater. 2022, 34, 5852-5859. doi: 10.1021/acs.chemmater.2c00618. (用操作磁强计揭示锂合金化-脱合金过程中过渡金属的演化) Wang, Y.; Wang, W.; Zhang, C.; Kan, H.; Yue, W.; Pang, J.; Gao, S.; Li, Y. A Digital–Analog Integrated Memristor Based on a ZnO NPs/CuO NWs Heterostructure for Neuromorphic Computing. ACS Appl. Electron. Mater. 2022, 4, 3525-3534. doi: 10.1021/acsaelm.2c00495. (基于ZnO NPs/CuO NWs异质结构的神经形态计算数模集成忆阻器) Zhijie Guo, Chunhui Sun, Hongru Yang, Haoyang Gao, Na Liang, Jian Wang, Shuang Hu, Na Ren, Jinbo Pang, Jingang Wang, Ning Meng, Lin Han, Hong Liu, Regulation of Neural Differentiation of ADMSCs using Graphene‐Mediated Wireless‐Localized Electrical Signals Driven by Electromagnetic Induction, Adv. Sci. 2022, 9(14),2104424. 10.1002/advs.202104424. (基于电磁感应驱动石墨烯薄膜介导的无线电刺激诱导脂肪间充质干细胞的神经分化) (封面) Shu Zhang#, Jinbo Pang#*, Yufen Li#, Bergoi Ibarlucea, Yu Liu, Ting Wang, Xiaoyan Liu, Songang Peng, Thomas Gemming, Qilin Cheng, Hong Liu*, Jiali Yang, Gianaurelio Cuniberti*, Weijia Zhou, Mark H. Rummeli*, An effective formaldehyde gas sensor based on oxygen-rich three-dimensional graphene, Nanotechnology 2022, 33, 185702. 10.1088/1361-6528/ac4eb4. (富氧缺陷的三维石墨烯用于甲醛传感器) Jinbo Pang#*, Y. Wang#, X. Yang#, L. Zhang#, Y. Li, Y. Zhang, J. Yang, F. Yang*, X. Wang*, G. Cuniberti, H. Liu* and M. H. Rümmeli, Mater. Adv. 2022, 3, 1497-1505. DOI: 10.1039/D1MA00757B. (用于高性能光电子的金属硫化晶圆级二维单硫化铂超薄膜) (内封面) Wanli Wang#, Jinbo Pang#*, Jie Su#, Fujiang Li, Qiang Li, Xiaoxiong Wang, Jingang Wang, Bergoi Ibarlucea, Xiaoyan Liu, Yufen Li, Weijia Zhou, Kai Wang*, Qingfang Han, Lei Liu, Ruohan Zang, Mark Rümmeli, Yang Li, Hong Liu*, Han Hu*, Gianaurelio Cuniberti*, Applications of nanogenerators for biomedical engineering and healthcare systems, InfoMat 2022, 4, e12262. DOI: 10.1002/inf2.12262: . (纳米发电机在生物医学工程及医养健康中的应用) J. Wang#*, J. Pang#*, H. Guo, X. Hu, C. Zhou, W. Tang, K. Jiang and W. Xia*, Operation characteristics of mid-infrared optical parametric oscillation pumped by layered WS2 modulated laser，Acta Phys. Sin., 2022, 71, 024204.: 10.7498/aps.71.20211409. (二维材料饱和吸收体) Jinbo Pang#, B. Chang#, H. Liu* and W. Zhou*, Potential of MXene-Based Heterostructures for Energy Conversion and Storage, ACS Energy Lett. 2022, 7, 78-96. (MXene基异质结构的能量转换与存储) (邀请视频) Shu Zhang#, Jinbo Pang#*, Yufen Li#, Feng Yang*, Thomas Gemming, Kai Wang, Xiao Wang, Songang Peng, Xiaoyan Liu, Bin Chang, Hong Liu*, Weijia Zhou, Gianaurelio Cuniberti*, Mark H. Rümmeli, Emerging Internet of Things driven carbon nanotubes-based devices, Nano Res. 2022, 15, 4613, DOI: 10.1007/s12274-021-3986-7. (新兴物联网驱动的碳纳米管器件研究) Shu Zhang#, Jinbo Pang#*, Qilin Cheng#, Feng Yang#, Yu Chen, Yu Liu, Yufen Li, Thomas Gemming, Xiaoyan Liu, Bergoi Ibarlucea, Jiali Yang, Hong Liu*, Weijia Zhou, Gianaurelio Cuniberti*, Mark H. Rummeli*, High-performance electronics and optoelectronics of monolayer tungsten diselenide full film from pre-seeding strategy, InfoMat 2021, 3, 1455. Doi:10.1002/inf2.12259. (预埋籽晶策略实现全覆盖单层二硒化钨薄膜的可控生长) Jinbo Pang*, Alicja Bachmatiuk, Feng Yang, Hong Liu, Weijia Zhou, Mark H. Rummeli, Gianaurelio Cuniberti*, Applications of Carbon Nanotubes in the Internet of Things Era, Nano-Micro Lett. 2021, 13, 191. 10.1007/s40820-021-00721-4: 10.1007/s40820-021-00721-4. (物联网时代大背景下的碳纳米管的应用) Wang, Y.#; Pang, J.#*; Cheng, Q.; Han, L.; Li, Y.; Meng, X.; Ibarlucea, B.; Zhao, H.; Yang, F.; Liu, H.; Liu, H.; Zhou, W.; Wang, X.; Rummeli, M. H.; Zhang, Y.; Cuniberti, G. Applications of 2D-Layered Palladium Diselenide and Its van der Waals Heterostructures in Electronics and Optoelectronics. Nano-Micro Lett 2021, 13, 143. doi: 10.1007/s40820-021-00660-0. (二硒化钯及其范德华异质结构在电子和光电子中的应用)[50] Yanhao Wang#, Yunhong Zhang#, Qilin Cheng#, Jinbo Pang, Yujin Chu, Hao Ji, Jianwei Gao, Yingkuan Han, Lin Han*, Hong Liu*, Yu Zhang*, Large area uniform PtSx synthesis on sapphire substrate for performance improved photodetectors, Appl. Mater. Today 2021, 25, 101176. 10.1016/j.apmt.2021.101176. (蓝宝石衬底上硫化铂的大面积沉积，用于改善性能的光电探测器) Qingfang Han#, Jinbo Pang#*, Yufen Li#, Baojun Sun#, Bergoi Ibarlucea, Xiaoyan Liu, Thomas Gemming, Qilin Cheng, Shu Zhang, Hong Liu*, Jingang Wang, Weijia Zhou, Gianaurelio Cuniberti*, Mark H. Rummeli*, Graphene Biodevices for Early Disease Diagnosis Based on Biomarker Detection, ACS Sens. 2021, 6, 3841. 10.1021/acssensors.1c01172: 10.1021/acssensors.1c01172. (基于生物标志物识别的石墨烯生物器件用于早期疾病诊断) Yang, J., Pang, J.*, Li, Y. Energy conversion and storage applications of graphene, phosphorene and MXene. In Horizons 2021 - Energy Storage and Conversion Virtual Conference Organized by Applied Physics Reviews, AIP Publishing: 2021; pp https://horizons.aip.org/energystorage-conversion/program/. (石墨烯，磷烯和MXene的能量转换和储存应用) Li, Y.; Pang, J.*; Yang, J. P44 - Wafer-scale two-dimensional WSe2 materials for optics, optoelectronics and electronics. In 15th International conference on materials chemistry (MC15) Royal Society of Chemistry: 2021. (晶圆级二维WSe2材料的光学，光电子和电子应用) Li, Y.; Pang, J.*; Cheng, Q. In Wafer-scale two-dimensional WSe2 materials for optics, optoelectronics and electronics, ACS Spring Meeting 2021, Apr 6-May 1, 2021; 2021; p 10.1021/scimeetings.1c00651. (晶圆级二维WSe2材料的光学，光电子和电子应用) Sun, B. J.#; Pang, J. B.#*; Cheng, Q. L.#; Zhang, S.; Li, Y. F.; Zhang, C. C.; Sun, D. H.; Ibarlucea, B.; Li, Y.; Chen, D.; Fan, H. M.; Han, Q. F.; Chao, M. X.; Liu, H.; Wang, J. G.; Cuniberti, G.; Han, L.; Zhou, W. J. Synthesis of Wafer-Scale Graphene with Chemical Vapor Deposition for Electronic Device Applications. Adv. Mater. Technol. 2021, 6, 2000744. doi: 10.1002/admt.202000744. (用化学气相沉积合成电子设备应用的晶圆级石墨烯) Niu, H.; Zhang, H.; Yue, W.; Gao, S.; Kan, H.; Zhang, C.; Zhang, C.; Pang, J.; Lou, Z.; Wang, L.; Li, Y.; Liu, H.; Shen, G. Micro-Nano Processing of Active Layers in Flexible Tactile Sensors via Template Methods: A Review. Small 2021, 2100804. doi: 10.1002/smll.202100804. (模板法用于微纳加工活性层在柔性触觉传感器中的应用) Zhou, J.; Chen, H. B.; Zhang, X. T.; Chi, K. L.; Cai, Y. M.; Cao, Y.; Pang, J. B.* Substrate dependence on (Sb4Se6)(n) ribbon orientations of antimony selenide thin films: Morphology, carrier transport and photovoltaic performance. J. Alloy Compd. 2021, 862, 158703. doi: 10.1016/j.jallcom.2021.158703. (基质依赖性（Sb4Se6）（n）锑硒化型薄膜的带取向：形态，载流子运输和光伏性能) Backes, C.; Behera, R. K.; Bianco, A.; Casiraghi, C.; Doan, H.; Criado, A.; Galembeck, F.; Goldie, S.; Gravagnuolo, A. M.; Hou, H. L.; Kamali, A. R.; Kostarelos, K.; Kumar, V.; Lee, W. H.; Martsinovich, N.; Palermo, V.; Palma, M.; Pang, J.; Prato, M.; Samori, P.; Silvestri, A.; Singh, S.; Strano, M.; Wetzl, C. Biomedical applications: general discussion. Faraday Discuss 2021, 227, 245-258. doi: 10.1039/D1FD90003J. (生物医学应用：一般讨论) Cao, Y.; Liu, C. Y.; Jiang, J. H.; Zhu, X. Y.; Zhou, J.; Ni, J.; Zhang, J. J.; Pang, J. B.*; Rummeli, M. H.; Zhou, W. J.; Liu, H.; Cuniberti, G. Theoretical Insight into High-Efficiency Triple-Junction Tandem Solar Cells via the Band Engineering of Antimony Chalcogenides. Solar RRL 2021, 5, 2000800. doi: 10.1002/solr.202000800. (通过锑硫酸锑能带工程对高效三级串联太阳能电池的理论洞察) Sun, D.; Zhang, Y.; Wang, D.; Song, W.; Liu, X.; Pang, J.; Geng, D.; Sang, Y.; Liu, H. Microstructure and domain engineering of lithium niobate crystal films for integrated photonic applications. Light Sci Appl 2020, 9, 197. doi: 10.1038/s41377-020-00434-0. (铌酸盐晶体膜的组织和域工程，用于集成光子应用) Pang, J. Large area synthesis of transition metal dichalcogenides for optoelectronics and transistors. In Faraday Discussion, Chemistry of 2-dimensional materials: Beyond graphene, Division, t. F., Ed. RSC: London (online), 2020; p A43. (大面积过渡金属硫属化合物合成及光电器件和场效应管的应用) Jing Wang, Jinbo Pang, Shipeng Liu, Peng Song, Wenjing Tang, Yuhu Ren, Wei Xia, Experimental optimization and dynamics solution of active-passive Q-switched intracavity optical parametric oscillator based on EO modulator and layered-WSe2 SA, Infrared Physics & Technology 2020, 111, 103525. doi: 10.1016/j.infrared.2020.103525. Cao, Y.; Zhu, X.; Tong, X.; Zhou, J.*; Ni,J.; Zhang, J.; Pang, J.* Ultrathin microcrystalline Si/Ge alloyed tandem solar cells towards full solar spectrum conversion. Front. Chem. Sci. Eng. 2019, 14, 997-1005. Doi:10.1007/s11705-019-1906-0. （超薄微晶硅锗合金串联太阳电池的全太阳光谱转换） Feng, X.; Zhang, Y.; Kang, L.; Wang, L.; Duan, C.; Yin, K.; Pang, J.*; Wang, K.* Integrated energy storage system based on triboelectric nanogenerator in electronic devices. Front. Chem. Sci. Eng. 2020, 15, 238-250. Doi: 10.1007/s11705-020-1956-3. （基于摩擦电纳米发电机的电子器件集成储能系统） Wang, K.; Xiao, F.; Pang, J.; Ren, J.; Duan, C.; Li, L. State of Charge (SOC) Estimation of Lithium-ion Battery Based on Adaptive Square Root Unscented Kalman Filter. International Journal of Electrochemical Science 2020, 15, 9499-9516. doi: 10.20964/2020.09.84. (锂电池寿命预测) Jianfeng Jiang, Fanqi Meng, Qilin Cheng, Aizhu Wang, Yuke Chen, Jie Qiao, Jinbo Pang, Weidong Xu, Hao Ji, Yu Zhang, Qinghua Zhang, Shanpeng Wang, Xianjin Feng, Lin Gu, Hong Liu, Lin Han, Low lattice mismatch InSe-Se vertical van der Waals heterostructure for high-performance transistors via strong Fermi-level depinning, Small Methods 2020, 4, 2000238. Doi: 10.1002/smtd.202000238. （高性能晶体管垂直范德华异质结构低晶格失配的强费米能级退钉扎）(内封面） Jiang, J.; Zhang, Y.; Wang, A.; Duan, J.; Ji, H.; Pang, J.; Sang, Y.; Feng, X.; Liu, H.; Han, L. Construction of high field-effect mobility multilayer MoS2 FETs with excellent stability through interface engineering. ACS Applied Electronic Materials 2020, 2, 2132-2140. Doi: 10.1021/acsaelm.0c00347. （界面工程法构建稳定性好的高场效应迁移率多层MoS2场效应晶体管） Chen, D.; Liu, Z.; Li, Y.; Sun, D.; Liu, X.; Pang, J.; Liu, H.; Zhou, W. Unsymmetrical Alveolate PMMA/MWCNTs Film as Piezoresistive E-skin with Four-dimensional Resolution and Application for Detecting Motion Direction and Airflow Rate. ACS Appl Mater Interfaces 2020, 12, 30896-30904. doi: 10.1021/acsami.0c02640. （非对称蜂窝状PMMA/MWCNTs薄膜作为四维分辨率的压阻电子皮肤及其在运动方向和气流速度检测中的应用） Cheng, Q.#; Pang, J.#*; Sun, D.#; Wang, J.; Zhang, S.; Liu, F.; Chen, Y.; Yang, R.; Liang, N.; Lu, X.; Ji, Y.; Wang, J.; Zhang, C.; Sang, Y.; Liu, H.*; Zhou, W.* WSe2 2D p‐type semiconductor‐based electronic devices for information technology: Design, preparation, and applications. InfoMat 2020, 2, 656-697. Doi: 10.1002/inf2.12093. (#these authors contributed equally; * corresponding authors) （信息技术用WSe2 2D p型半导体电子器件的设计、制备及应用） Gao, J.; Gao, Y.; Han, Y.; Pang, J.; Wang, C.; Wang, Y.; Liu, H.; Zhang, Y.; Han, L. Ultrasensitive label-free miRNA sensing based on flexible graphene field-effect transistor without functionalization. ACS Applied Electronic Materials 2020, 2, 1090-1098. Doi: 10.1021/acsaelm.0c00095. （基于柔性石墨烯场效应晶体管的无标签超灵敏miRNA传感） He, Z.; Liu, Y.; Lin, S.; Shi, S.; Sun, S.; Pang, J.; Zhou, Z.; Sun, Y.; Liu, W. Energy band alignment in molybdenum oxide/ Cu(In,Ga)Se2 interface for high efficiency ultrathin Cu(In,Ga)Se2 solar cells from low-temperature growth. ACS Applied Energy Materials 2020, 3, 3408-3414. doi: 10.1021/acsaem.9b02460. （低温生长高效超薄Cu（in，Ga）Se2太阳电池的moo2/Cu（in，Ga）Se2界面能带排列） C. Bu, F. Li, K. Yin, J. Pang*, L. Wang, K. Wang*, Research Progress and Prospect of Triboelectric Nanogenerators as Self-Powered Human Body Sensors, ACS Applied Electronic Materials 2020, 2, 863-878. Doi: 10.1021/acsaelm.0c00022. （纳米摩擦电传感器的研究进展与展望） Cao, Y.; Zhu, X.; Jiang, J.; Liu, C.; Zhou, J.*;Ni, J.; Zhang, J.; Pang, J.* Rotational design of charge carrier transport layers for optimal antimony trisulfide solar cells and its integration in tandem devices. Sol. Energy Mater. Sol.Cells 2020, 206, 110279. DOI: 10.1016/j.solmat.2019.110279（最佳三硫化锑太阳电池载流子输运层的旋转设计及其串联集成） Han, S.; Chen, D.; Wang, J.; Liu, Z.; Liu, F.; Chen, Y.; Ji, Y.; Pang, J.; Liu, H.; Wang, J. Assembling Sn3O4 nanostructures on a hydrophobic PVDF film through metal-F coordination to construct a piezotronic effect-enhanced Sn3O4/PVDF hybrid photocatalyst. Nano Energy 2020, 72, 104688. doi: 10.1016/j.nanoen.2020.104688. （利用金属-F配位在疏水性PVDF膜上组装Sn3O4纳米结构构建压电增强Sn3O4/PVDF复合光催化剂） Xia, G.; Huang, Y.; Li, F.; Wang, L.; Pang, J.;Wang, K.; Li, L. A thermally flexible and multi-site tactile sensor for remote 3D dynamic sensing imaging. Front. Chem. 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