• 更多栏目

    江诚鸣

    • 副研究员       硕士生导师
    • 性别:男
    • 毕业院校:阿拉巴马大学
    • 学位:博士
    • 所在单位:机械工程学院
    • 电子邮箱:jiangcm@dlut.edu.cn

    访问量:

    开通时间:..

    最后更新时间:..

    个人简介

    江诚鸣,大连理工大学机械学院纳米光电科学与技术研究所,2011协同创新中心副研究员。于美国阿拉巴马大学取得博士学位,获“国家优秀自费留学生奖”,大连理工大学“星海优青”,“辽宁省百千万人才”,“大连市青年科技之星”称号。在微纳光电与传感研究方面,取得了具有国际重要影响力的原创性和开创性研究成果。所研制的新一代高性能数字图像传感器,通过国家集成电路委员会认证,具有国际领先技术水平。美国nanowerk、环球时报、科技日报等对这一研究成果做了深入报道。该研究成果被图像传感器行业评为“年度十大传感器事件”。同时申请人还承担研发了新一代的光子逻辑运算芯片,及微纳谐振传感芯片等众多创新性成果,成果得到“大连海创”支持,多次参与地方媒体的报道与路演,得到社会各方的广泛关注与认可。负责GF重大项目课题1项,国家自然基金2项,骨干参与重点研发计划及大连市重大1项。在国内外发表SCI期刊论文多篇,作为第一或通信作者发表过论文的期刊包括《Advanced Materials》(IF=27.6),《Advanced Functional Materials》(IF=16.8),《NanoEnergy》(IF=16.4),《ACS Nano》(IF=14.5),《Nano Letters》(IF=11.3),《Small》(IF=11.8)等高水平期刊。拥有国际国内专利多项,担任多个国际著名期刊审稿人。


    课题组研究领域

    课题组针对高性能传感器件芯片在我国高端产品领域的迫切需求和技术问题,从研究纳机电材料的压电特性、光电特性、和共振特性出发,利用高精度大规模微纳加工制造方法,形成以实现高性能触觉传感器、分子传感芯片、及图像传感芯片为三个主要研究方向。1)设计构建了多种高性能微纳结构应力传感器件,通过性质表征揭示了应力信号衰减与纳米材料电导率降低、结构劣化的内在规律;克服传统工艺在大规模器件制备中响应衰弱的问题,实现了具有高柔性高性能触觉传感系统的研发。2)建立了微纳加工及元件转移等微纳结构构筑方法,提出了共振偏移表征及无损信号测量等方法提高器件的结构稳定性和电输运性能的策略,大幅提高了小分子传感器芯片的测量精度、单元密度和低功率损耗。3)提出了三维结构微纳制造,及其光电信号转化特性和优化策略,显著改善了多层结构的电信号转换和输运性能,大幅提高了微纳传感器光电灵敏度;克服了传统平面结构的空间尺寸大的难题,实现了高性能图像传感器芯片的研发。为促进上述基础性研究成果的实际应用,形成了以人体感官三觉(触觉,嗅觉,视觉)为主的相关机械电子与传感器芯片制备研发。




    部分第一或通讯作者SCI期刊成果

    2021:

    C Jiang, * D Tan, N Sun, J Huang, R Ji, Q Li, S Bi, Q Guo, X Wang, J Song "60 nm Pixel-size Pressure Piezo-memory System as Ultrahigh-resolution Neuromorphic Tactile Sensor for In-chip Computing" Nano Energy 2021, 87, 106190


    C Jiang,* D Tan, Q Li, J Huang, J Bu, L Zang, R Ji, S Bi, Q Guo "High-Performance and Reliable Silver Nanotube Networks for Efficient and Large-Scale Transparent Electromagnetic Interference Shielding" ACS Applied Materials & Interfaces 2021, 13, 15525-15535


    D Tan, C Jiang,* Q Li, S Bi, X Wang, J Song "Development and current situation of flexible and transparent EM shielding materials"  Journal of Materials Science: Materials in Electronics, 2021, 1-28


    X Cao, C Jiang,* D Tan, Q Li, S Bi, J Song "Recent mechanical processing techniques of two-dimensional layered materials: a review" Journal of Science: Advanced Materials and Devices 2021, 6, 135-153


    L Sun, N Sun, Y Liu, C Jiang*   "A High-Sensitivity Knock Sensor Based on ZnO Nanowires Array as Piezoelectric Nanogenerator" Chemistry Letters 2021, 50 (X)


    L Sun, D Tan, Y Liu, C Jiang* "Photoelectrical properties of high-index facets ZnO nanobelts" Chemistry Letters 2021, 50, 1045-1048


     

    2020

    C Jiang,* Q Li,* N Sun, J Huang, S Bi, R Ji, Q Guo, J Song* "High-Dynamic-Range Pressure Mapping Interactions by Dual Piezo-Phototronic Transistor with Piezo-Nanowire Channels and Piezo-OLED Gates" Advanced Functional Materials, 2020, 30, 2004724.


    C Jiang,* Q Li, S Fan, Q Guo, S Bi, X Wang, X Cao, Y Liu, J Song* "Hyaline and stretchable haptic interfaces based on serpentine-shaped silver nanofiber networks" Nano Energy, 2020, 74, 104782.


    C Jiang,* Q Li,* N Sun, J Huang, R Ji, S Bi, Q Guo, J Song* "A high-performance bionic pressure memory device based on piezo-OLED and piezo-memristor as luminescence-fish neuromorphic tactile system" Nano Energy, 2020, XX, 105120.


    C Jiang,* Q Li,* J Huang, S Bi, R Ji, Q Guo,“Single-layer MoS2 mechanical resonant piezo-sensors with high-mass-sensitivity” ACS Applied Materials & Interfaces 2020, 12, 41991.


    Q Li, C Jiang,* S Bi, K Asare-Yeboah, Z He, Y Liu, "Photo-Triggered Logic Circuits Assembled on Integrated Illuminants and Resonant Nanowires" ACS Applied Materials & Interfaces 2020, 12, 46501.


    K Asare-Yeboah, Q Li, C Jiang,* Z He, S Bi,* Y Liu, C Liu, "High Performance and Efficiency Resonant Photo-Effect-Transistor by Near-Field Nano-Strip-Controlled Organic Light Emitting Diode Gate" J. Phys. Chem. Lett. 2020, 11, 6526–6534.


    S Bi, Q Li, K Asare-Yeboah, J Na, Y Sun, C Jiang* "Ultra-High-Responsivity Vertical Nanowire-based Phototransistor under Standing-Wave Plasmon Mode Interaction Induced by Near-Field Circular OLED" J. Phys. Chem. Lett. 2020,11, 3947-3954 .


    N Sun, C Jiang,* Q Li, D Tan, S Bi, J Song* "Performance of OLED under mechanical strain: a review" Journal of Materials Science: Materials in Electronics, 2020, 1-42



    2019:

    Q Li, S Bi, K Asare-Yeboah, J Na, Y Liu, C Jiang*, J Song*“A High Performance Vertical Resonant Photo-Effect-Transistor with an All-Around OLED-Gate for Ultra Electromagnetic Stability” ACS nano 2019, 13, 8425-8432


    S Bi, Q Li, Z He, Q Guo, K Asare-Yeboah, Y Liu, C Jiang* "Highly enhanced performance of integrated piezo photo-transistor with dual inverted OLED gate and nanowire array channel" Nano Energy 2019, 66, 104101


    Q Li, S Bi, Q Guo, S Fan, Y Liu, C Jiang,* J Song,* “Paper-like Foldable Nanowave Circuit with Ultralarge Curvature and Ultrahigh Stability”ACS applied materials & interfaces 2019,11, 43368-43375 (IF = 8.6,JCR Q1)



    2018:

    S Fan, S Bi, Q Li, Q Guo, J Liu, Z Ouyang, C Jiang*, J Song* “Size-dependent Young’s modulus in ZnO nanowires with strong surface atomic bonds” Nanotechnology 2018, 29, 125702

    S Bi, Z Ouyang, Q Guo, C Jiang*Performance enhancement by vertical morphology alteration of the active layer in organic solar cells” RSC advances 2018, 8, 6519-6526



    2017及之前:

    C Jiang, J Song “An Ultrahigh‐Resolution Digital Image Sensor with Pixel Size of 50 nm by Vertical Nanorod Arrays” Advanced Materials,2015,27, 4454-4460


    C Jiang, C Tang, J Song "The Smallest Resonator Arrays in Atmosphere by Chip-Size-Grown Nanowires with Tunable Q-factor and Frequency for Subnanometer Thickness Detection" Nano letters, 2015, 15, 1128-1134


    C Jiang,J Song "Significant Photoelectric Property Change Caused by Additional Nano‐confinement: A Study of Half‐Dimensional Nanomaterials" Small 2014 10, 5042-5046


    C Jiang,W Lu, J Song "Shear modulus property characterization of nanorods" Nano letters 2013, 13, 111-115


    F Wang,# C Jiang,# C Tang, S Bi, Q Wang, D Du, J Song* "High output nano-energy cell with piezoelectric nanogenerator and porous supercapacitor dual functions – A technique to provide sustaining power by harvesting intermittent mechanical energy from surroundings" Nano energy 2016, 21, 209-216







    教育经历

    2010.8 -- 2016.5
    阿拉巴马大学       材料       博士

    2006.9 -- 2010.7
    西北大学       物理       学士

    2003.9 -- 2006.6
    无锡一中       无