目录Contents 前言 Preface 王中林简介和主要科学贡献 Biography and Summary of Wang’s Achievements 第一部分 Part Ⅰ Ⅰ.1 电子显微学基础技术Fundamental Techniques of Electron Microscopy 1. Surface Plasmon Excitation for Supported Metal Particles, Ultramicroscopy (1987) 3 首次考虑衬底对于单个小颗粒的等离子体激元的影响 2. Size and Shape Dependence of the Surface Plasmon Frequencies for Supported Metal Particle Systems, Ultramicroscopy (1987) 4 首次考虑小颗粒的形貌对等离子体激元的影响 3. Valence Electron Excitations and Plasmon Oscillations in Thin Films, Surfaces, Interfaces and Small Particles, Micron (1996) 5 首次从麦克斯韦方程组出发推导出了包括相对论效应来计算薄膜、表面、界面和小颗粒等离子体激元的激发概率方程式 4. Reflection Electron Energy Loss Spectroscopy (REELS): A Technique for the Study of Surfaces,Surface Science (1988) 6 首次发明了高能电子的反射电子能量损失谱 5. Electron Inelastic Plasmon Scattering and its Resonance Propagations at Crystal Surfaces in RHEED,Acta Crystallographica Section A (1989) 7 首次从理论计算和实验观察得到了高能电子在表面顶层几个原子层的共振传播过程 6. Mapping the Valence States of Transition-Metal Elements Using Energy-Filtered Transmission Electron Microscopy, Journal of Physical Chemistry B (1999) 8 首次利用能量过滤的透射显微镜得到过渡金属价态分布和变化的高分辨图像 7. EELS Analysis of Cation Valence States and Oxygen Vacancies in Magnetic Oxides, Micron (2000) 9 首次提出了利用钴和锰元素的L-edge white line 的强度比率来确定所具有的价态 Ⅰ.2 HAADF STEM成像理论Theory of High-Angle Annular Dark-Field STEM Imaging 1. Simulating High-Angle Annular Dark-Field STEM Images Including Inelastic Thermal Diffuse Scattering, Ultramicroscopy (1989) 10 首次提出晶体中声子的漫散射(热漫散射)是HAADF STEM成像中的主要贡献者 2. Dynamic Theory of High-Angle Annular Dark Field STEM Lattice Images for a Ge/Si Interface, Ultramicroscopy (1990) 11 完善了晶体中声子的漫散射(热漫散射)对HAADF STEM成像中的贡献 Ⅰ.3 电子非弹性散射的基本理论Fundamental Theory of Electron Inelastic Scattering 1. Dynamical Inelastic Scattering in High-Energy Electron Diffraction and Imaging: A New Theoretical Approach, Physical Review B(1990) 12 首次推导出了多片层学非弹性散射的动力学理论 2. Theory of Phase Correlations in Localized Inelastic Electron Diffraction and Imaging, Ultramicroscopy (1991) 13 首次推导出理解电子衍射中热散射所引入的衍射斑点沿着某些方向拉长的规律以及实验验证 3. Dynamics of Thermal Diffuse Scattering in High-Energy Electron Diffraction and Imaging: Theory and Experiments, Philosophical Magazine Part B (1992) 14 首次计算得到了在有原子晶格热振动情况下薄膜的电子衍射图 4. Thermal Diffuse Scattering in High-Resolution Electron Holography, Ultramicroscopy (1993) 15 首次从理论上证明了电子全息成像是一个完美的弹性散射的过滤器 5. Statistical Multiple Diffuse Scattering in a Distorted Crystal System: An Exact Theory, Philosophical Magazine Part B (1996) 16 首次给出了描述具有不同缺陷分布的晶体结构中高能电子衍射薛定谔方程的“严格解” 6. Electron Statistical Dynamical Diffuse Scattering in Crystals Containing Short-Range-Order Point Defects, Acta Crystallographica Section A (1996) 17 从具有短程有序的点缺陷的晶体结构出发,首次给出了描述高能电子衍射中薛定谔方程的严格解 7. The ‘Frozen Lattice’ Approach for Incoherent Phonon Excitations in Electron Scattering. How Accurate Is It? Acta Crystallographica Section A (1998) 18 从解析方程出发证明利用晶格冻结模型所计算的电子衍射图和量子力学计算的模型全等 8. An Optical Potential Approach to Incoherent Multiple Thermal Diffuse Scattering in Quantitative HRTEM, Ultramicroscopy (1998) 19 首次给出了计算高能电子衍射和成像中包括声子散射情况下动力学方程的严格解 9. Phonon Scattering: How Does It Affect the Image Contrast in High-Resolution Transmission Electron Microscopy? Philosophical Magazine Part B (1999) 20 首次阐述了为什么在超高显微分辨率成像中必须考虑声子散射所做的贡献 10. Picoscale Science and Nanoscale Engineering by Electron Microscopy, Journal of Electron Microscopy (2011) 21 预言了电子显微技术未来发展的方向和领域 Ⅰ.4 透射显微镜中的原位测量In-situ Nanomeasurements in TEM 1. Carbon Nanotube Quantum Resistors, Science (1998) 22 首次原位观察到了碳纳米管的量子导电效应 2. Electrostatic Deflections and Electromechanical Resonances of Carbon Nanotubes, Science (1999) 23 首次报道了在透射显微镜中利用悬臂梁的共振效应,实现单根碳纳米管杨氏模量的原位测量 3. Work Function at the Tips of Multiwalled Carbon Nanotubes, Applied Physics Letters (2001) 24 首次提出了在透射电子显微镜中,可以原位测量单根碳纳米管尖端的功函数的方法 4. Low-Temperature in situ Large Strain Plasticity of Ceramic SiC Nanowires and its Atomic-Scale Mechanism, Nano Letters (2007) 25 首次报道了在透射显微镜中研究单根纳米线的塑性形变的方法和力学极限 5. Dynamic Fatigue Studies of ZnO Nanowires by in-situ Transmission Electron Microscopy, Physica Status Solidi RRL (2009) 26 首次报道了在透射显微镜中研究单根纳米线的疲劳 6. Elastic Property of Vertically Aligned Nanowires, Nano Letters (2005) 27 首次报道了利用原子力探针进行垂直阵列纳米线杨氏模量的测试 7. Quantitative Nanoscale Tracking of Oxygen Vacancy Diffusion Inside Single Ceria Grains by in situ Transmission Electron Microscopy, Materials Today (2020) 28 开创性地研究了CeO2中氧空位的原位扩散行为 Ⅰ.5 纳米材料与ZnO纳米结构Nanomaterials and ZnO Nanostructures 1. Nanobelts of Semiconducting Oxides, Science (2001) 29 首次报道了氧化物纳米带结构 2. Single-Crystal Nanorings Formed by Epitaxial Self-Coiling of Polar Nanobelts, Science (2004) 30 首次报道了单晶氧化锌纳米带由于极性面的作用而形成的环状结构 3. Large-Scale Hexagonal-Patterned Growth of Aligned ZnO Nanorods for Nano-Optoelectronics and Nanosensor Arrays, Nano Letters (2004) 31 首次介绍了大规模生长六角形分布氧化锌纳米线阵列的新方法 4. Optimizing and Improving the Growth Quality of ZnO Nanowire Arrays Guided by Statistical Design of Experiments, ACS Nano (2009) 32 首次把统计设计的理念引入到纳米材料的可控优化生长中 5. Wafer-Scale High-Throughput Ordered Growth of Vertically Aligned ZnO Nanowire Arrays, Nano Letters (2010) 33 首次介绍了一种利用激光干涉制备衬底的方法来大规模生长氧化锌纳米线阵列 6. Nanostructures of Zinc Oxide, Materials Today (2004) 34 系统总结了极性面所导致的各种氧化锌纳米结构的形貌及其生长机制 7. Wafer-Level Patterned and Aligned Polymer Nanowire/Micro- and Nanotube Arrays on Any Substrate, Advanced Materials (2009) 35 首次介绍了一个普适的大规模生长高分子纳米线阵列的方法 8. Converting Ceria Polyhedral Nanoparticles into Single-Crystal Nanospheres, Science (2006) 36 首次报道了如何合成单晶的球型CeO2纳米颗粒的方法 9. Synthesis of Tetrahexahedral Platinum Nanocrystals with High-Index Facets and High Electro-Oxidation Activity, Science (2007) 37 首次报道了铂颗粒可以具有更高指数的晶格面 Ⅰ.6 纳米器件Nanodevices 1. Stable and Highly Sensitive Gas Sensors Based on Semiconducting Oxide Nanobelts, Applied Physics Letters (2002) 38 氧化物纳米带首次用在气体传感器上的文章 2. Gigantic Enhancement in Sensitivity Using Schottky Contacted Nanowire Nanosensor, Journal of the American Chemical Society (2009) 39 根据肖特基接触做出的第一个气体传感器 3. Schottky-Gated Probe-Free ZnO Nanowire Biosensor, Advanced Materials (2009) 40 根据肖特基接触做出的第一个生物传感器 4. Piezotronic Effect Enhanced Performance of Schottky-Contacted Optical, Gas, Chemical and Biological Nanosensors, Nano Energy (2015) 41 根据肖特基接触,基于压电电子学效应做出的各种纳米传感器的首篇综述文章 5. Shell-Isolated Nanoparticle-Enhanced Raman Spectroscopy, Nature (2010) 42 首次报道了用核壳结构做出的纳米颗粒进行同步拉曼成像 Ⅰ.7 压电纳米发电机Piezoelectric Nanogenerators 1. Piezoelectric Nanogenerators Based on Zinc Oxide Nanowire Arrays, Science (2006) 43 报道基于扫描探针的压电式纳米发电机的开山之作 2. Direct-Current Nanogenerator Driven by Ultrasonic Waves, Science (2007) 44 基于平行探针的压电式纳米发电机的原作 3. Microfibre-Nanowire Hybrid Structure for Energy Scavenging, Nature (2008) 45 首篇利用纳米线与纤维相结合的结构进行能量回收的开山之作 4. Power Generation with Laterally Packaged Piezoelectric Fine Wires, Nature Nanotechnology (2009) 46 首篇利用平躺的单根纳米线进行能量回收的文章 5. Converting Biomechanical Energy into Electricity by a Muscle-Movement-Driven Nanogenerator, Nano Letters (2009) 47 首篇利用压电式纳米发电机收集生物机械能的文章 6. Electrostatic Potential in a Bent Piezoelectric Nanowire. The Fundamental Theory of Nanogenerator and Nanopiezotronics, Nano Letters (2007) 48 首篇计算纳米线中压电势分布的文章 7. Characteristics of Output Voltage and Current of Integrated Nanogenerators, Applied Physics Letters (2009) 49 首次提出了进行信号判断的“三大纪律、八项注意”的标准 8. Muscle-Driven in vivo Nanogenerator, Advanced Materials (2010) 50 首篇利用活体器官来带动基于单根纳米线的纳米发电机的文章 9. Flexible High-Output Nanogenerator Based on Lateral ZnO Nanowire Array, Nano Letters (2010) 51 首篇基于多级平行组装的纳米线阵列来提升压电式纳米发电机并点亮LED灯的文章 10. Replacing a Battery by a Nanogenerator with 20 V Output, Advanced Materials (2012) 52 首篇利用阵列式纳米线制造的压电式纳米发电机来驱动一个电子手表的文章 11. Functional Electrical Stimulation by Nanogenerator with 58 V Output Voltage, Nano Letters (2012) 53 首篇利用阵列式纳米线制造的多个压电式纳米发电机系统来实现58V和134uA输出的文章 12. Piezoelectricity of Single-Atomic-Layer MoS2 for Energy Conversion and Piezotronics, Nature (2014) 54 首篇报道二维材料中压电效应和压电电子学效应的文章 13. Lateral Nanowire/Nanobelt Based Nanogenerators, Piezotronics and Piezo-Phototronics, Materials Science and Engineering R (2010) 55 关于压电式纳米发电机、压电电子学与压电光电子学的综合综述论文 14. Nanotechnology-Enabled Energy Harvesting for Self-Powered Micro-/Nanosystems, Angewandte Chemie (2012) 56 关于利用纳米技术进行能量回收和自驱动系统的一篇综述 15. Recent Progress in Piezoelectric Nanogenerators as a Sustainable Power Source in Self-Powered Systems and Active Sensors, Nano Energy (2015) 57 聚焦在压电式纳米发电机的综述论文 16. Energy Harvesting Using Piezoelectric Nanowires—A Correspondence on “Energy Harvesting Using Nanowires?” by Alexe et al.,Advanced Materials (2009) 58 该文章是回应德国一个小组对纳米发电机信号的质疑 Ⅰ.8 压电催化Piezocatalysis 1. Piezo-Potential Enhanced Photocatalytic Degradation of Organic Dye Using ZnO Nanowires, Nano Energy (2015) 59 利用压电所产生的正负极化电荷进行氧化还原反应 2. Enhanced Ferroelectric-Nanocrystal-Based Hybrid Photocatalysis by Ultrasonic-Wave-Generated Piezophototronic Effect, Nano Letters (2015) 60 利用超声波所产生的铁电纳米颗粒所具有的压电光电子学效应进行催化反应 3. Advances in Piezo-Phototronic Effect Enhanced Photocatalysis and Photoelectrocatalysis, Advanced Energy Materials (2020) 61 全面介绍利用压电光电子学效应增强光催化和光电催化反应的综述文章 第二部分 Part Ⅱ Ⅱ.1 摩擦纳米发电机的基本模式The Working Modes of Triboelectric Nanogenerators 1. Flexible Triboelectric Generator!Nano Energy (2012) 65 该文是摩擦纳米发电机的开山之作,开辟了能源回收中的新领域 2. Sliding-Triboelectric Nanogenerators Based on In-Plane Charge-Separation Mechanism, Nano Letters (2013) 66 首次介绍了滑动式摩擦纳米发电机的原理 3. Linear-Grating Triboelectric Generator Based on Sliding Electrification, Nano Letters (2013) 67 首次报道了线状格栅式摩擦纳米发电机 4. Segmentally Structured Disk Triboelectric Nanogenerator for Harvesting Rotational Mechanical Energy, Nano Letters (2013) 68 首次报道了转盘格栅式摩擦纳米发电机 5. Single-Electrode-Based Sliding Triboelectric Nanogenerator for Self-Powered Displacement Vector Sensor System, ACS Nano (2013) 69 首次报道了单电极式摩擦纳米发电机 6. Freestanding Triboelectric-Layer-Based Nanogenerators for Harvesting Energy from a Moving Object or Human Motion in Contact and Non-contact Modes, Advanced Materials (2014) 70 首次报道了自由悬浮式摩擦纳米发电机 7. Robust Triboelectric Nanogenerator Based on Rolling Electrification and Electrostatic Induction at an Instantaneous Energy Conversion Efficiency of ~55%, ACS Nano (2015) 71 首次报道了基于球或柱滚动式摩擦纳米发电机 8. Cylindrical Rotating Triboelectric Nanogenerator, ACS Nano (2013) 72 首次报道了圆柱滚筒式摩擦纳米发电机 9. A Constant Current Triboelectric Nanogenerator Arising from Electrostatic Breakdown, Science Advances (2019) 73 首次报道了直流电摩擦纳米发电机 10. Rationally Patterned Electrode of Direct-Current Triboelectric Nanogenerators for Ultrahigh Effective Surface Charge Density, Nature Communications (2020) 74 首次报道了如何提高直流电摩擦纳米发电机的输出性能 Ⅱ.2 无线传输型摩擦纳米发电机The Triboelectric Nanogenerators with Wireless Power Transmission 1. Inductor-Free Wireless Energy Delivery via Maxwell’s Displacement Current from an Electrodeless Triboelectric Nanogenerator, Advanced Materials (2018) 75 首次报道了不利用感应线圈而是基于麦克斯韦位移电流进行摩擦纳米发电机电力无线输出的新技术 2. Novel Wireless Power Transmission Based on Maxwell Displacement Current, Nano Energy (2020) 76 报道了利用麦克斯韦位移电流进行摩擦纳米发电机电力无线输出的新技术 Ⅱ.3 摩擦纳米发电机的效率和特性The Efficiency and Characteristics of Triboelectric Nanogenerators 1. Applicability of Triboelectric Generator over a Wide Range of Temperature, Nano Energy (2014) 77 首次探索了摩擦纳米发电机在不同温度下的工作情况 2. A Shape-Adaptive Thin-Film-Based Approach for 50% High-Efficiency Energy Generation Through Micro-Grating Sliding Electrification, Advanced Materials (2014) 78 首次实现了摩擦纳米发电机在滑动模式下可以给出50%的能量转换效率 3. Grating-Structured Freestanding Triboelectric-Layer Nanogenerator for Harvesting Mechanical Energy at 85% Total Conversion Efficiency, Advanced Materials (2014) 79 首次实现了摩擦纳米发电机在自由悬浮式下高达85%的能量转换总效率 4. Liquid-Metal Electrode for High-Performance Triboelectric Nanogenerator at an Instantaneous Energy Conversion Efficiency of 70.6%, Advanced Functional Materials (2015) 80 首次利用液态金属作为一个电极的摩擦纳米发电机 5. Maximum Surface Charge Density for Triboelectric Nanogenerators Achieved by Ionized-Air Injection: Methodology and Theoretical Understanding, Advanced Materials (2014) 81 首次介绍了利用空气离子化注入的方法来提高表面电荷密度的方法 Ⅱ.4 摩擦纳米发电机与电磁发电机的性能比较 A Comparison of Triboelectric Nanogenerator and Electromagnetic Generator 1. Theoretical Comparison, Equivalent Transformation, and Conjunction Operations of Electromagnetic Induction Generator and Triboelectric Nanogenerator for Harvesting Mechanical Energy, Advanced Materials (2014) 82 首次把电磁发电机与摩擦纳米发电机的输出做了理论和性能方面的比较 2. Harvesting Low-Frequency (<5Hz) Irregular Mechanical Energy: A Possible Killer Application of Triboelectric Nanogenerator, ACS Nano (2016) 84 首次展现了在低频率运转的情况下,摩擦纳米发电机的输出功率远高于电磁发电机的输出 3. Remarkable Merits of Triboelectric Nanogenerator than Electromagnetic Generator for Harvesting Small-Amplitude Mechanical Energy, Nano Energy (2019) 85 首次把电磁发电机与摩擦纳米发电机的输出功率做了定量比较 Ⅱ.5 提高摩擦纳米发电机的寿命Improving the Durability of Triboelectric Nanogenerator 1. Largely Improving the Robustness and Lifetime of Triboelectric Nanogenerators through Automatic Transition between Contact and Noncontact Working States, ACS Nano (2015) 86 首次提出了摩擦纳米发电机运用接触式和非接触式自动互换的机制来大大延伸其寿命 2. A Spring-Based Resonance Coupling for Hugely Enhancing the Performance of Triboelectric Nanogenerators for Harvesting Low-Frequency Vibration Energy, Nano Energy (2017) 87 首次利用弹簧共振的原理来延长摩擦纳米发电机的寿命并提高其输出功率 3. Rationally Designed Rotation Triboelectric Nanogenerators with Much Extended Lifetime and Durability, Nano Energy (2020) 88 首次展示了利用摆钟结构设计的TENG Ⅱ.6 摩擦纳米发电机的综述介绍Review Papers on Triboelectric Nanogenerator 1. Triboelectric Nanogenerators as New Energy Technology and Self-Powered Sensors-Principles, Problems and Perspectives, Faraday Discussions (2014) 89 首次总结了摩擦纳米发电机的四种模式 2. Triboelectric Nanogenerators as New Energy Technology for Self-Powered Systems and as Active Mechanical and Chemical Sensors, ACS Nano (2013) 91 第一篇系统总结摩擦纳米发电机的综述文章 3. Progress in Triboelectric Nanogenertors as a New Energy Technology and Self-Powered Sensors, Energy & Environmental Science (2015) 93 第二篇系统总结摩擦纳米发电机的综述文章 4. Flexible Nanogenerators for Energy Harvesting and Self-Powered Electronics, Advanced Materials (2016) 94 一篇摩擦纳米发电机的综述文章 5. Triboelectric Nanogenerator: A Foundation of the Energy for the New Era, Advanced Energy Materials (2019) 95 提出了摩擦纳米发电机的发展技术路线图和四大研究领域:微纳能源、自驱动传感、蓝色能源和高压电源 6. Self-Powered Cardiovascular Electronic Devices and Systems, Nature Reviews Cardiology (2021) 96 首次总结了应用于植入式生物医疗器件的纳米发电机及其相关技术 7. Triboelectric Nanogenerator (TENG)—Sparking an Energy and Sensor Revolution, Advanced Energy Materials (2020) 97 总结了摩擦纳米发电机作为新时代能源与传感技术的最新进展 8. The Triboelectric Nanogenerator as an Innovative Technology toward Intelligent Sports, Advanced Materials (2021) 98 总结了摩擦纳米发电机在智能体育方面的应用 9. Paper-Based Triboelectric Nanogenerators and Their Applications: A review, Beilstein Journal of Nanotechnology (2021) 99 总结了纸质的摩擦纳米发电机及其应用 10. From Contact-Electrication to Triboelectric Nanogenerators, Reports on Progress in Physics (2021) 100 系统总结了接触起电的机理和摩擦纳米发电机的系统理论体系、评判标准,以及在五大领域的重大应用和智能体育方面的应用 Ⅱ.7 摩擦纳米发电机:等效电路理论Triboelectric Nanogenerators—Equivalent Circuit Theory 1. Theory of Sliding-Mode Triboelectric Nanogenerators, Advanced Materials (2013) 102 首次发展了基于等效电路模型的滑动式摩擦纳米发电机的基本模拟计算方法 2. Theoretical Study of Contact-Mode Triboelectric Nanogenerators as an Effective Power Source, Energy & Environmental Science (2013) 103 首次发展了基于等效电路模型的接触分离式摩擦纳米发电机的基本模拟计算方法 3. A Theoretical Study of Grating Structured Triboelectric Nanogenerators, Energy & Environmental Science (2014) 104 首次发展了基于等效电路模型具有光栅结构的滑动式摩擦纳米发电机的基本模拟计算方法 4. Theoretical Investigation and Structural Optimization of Single-Electrode Triboelectric Nanogenerators, Advanced Functional Materials (2014) 105 首次发展了基于等效电路模型的单电极式摩擦纳米发电机的基本模拟计算方法 5. Theory of Freestanding Triboelectric-Layer-Based Nanogenerators, Nano Energy (2015) 106 首次发展了基于等效电路模型的自由悬浮式摩擦纳米发电机的基本模拟计算方法 6. Simulation Method for Optimizing the Performance of an Integrated Triboelectric Nanogenerator Energy Harvesting System, Nano Energy (2014) 107 首次发展了基于等效电路模型的优化摩擦纳米发电机输出功率的基本模拟计算方法 7. Theoretical Study of Rotary Freestanding Triboelectric Nanogenerators, Advanced Functional Materials (2015) 108 首次发展了基于等效电路模型的旋转滑动式摩擦纳米发电机的基本模拟计算方法 8. Theoretical Systems of Triboelectric Nanogenerators, Nano Energy (2015) 109 首篇总结基于等效电路模型的摩擦纳米发电机的基本模拟计算方法的综述文章 Ⅱ.8 摩擦纳米发电机:麦克斯韦位移电流理论Triboelectric Nanogenerators—Maxwell Displacement Current Theory 1. On Maxwell’s Displacement Current for Energy and Sensors: The Origin of Nanogenerators, Materials Today (2017) 110 首次提出了驱动纳米发电机的是麦克斯韦位移电流 2. On the First Principle Theory of Nanogenerators from Maxwell’s Equations, Nano Energy (2020) 111 首次全面和系统地从麦克斯韦方程组出发,给出了计算纳米发电机的输出电流、电压和功率的解析表达式 3. Quantifying the Power Output and Structural Figure-of-Merits of Triboelectric Nanogenerators in a Charging System Starting from the Maxwell’s Displacement Current, Nano Energy (2019) 112 从拓展的麦克斯韦方程组出发,模拟和计算了摩擦纳米发电机的输出特性 4. Three-Dimensional Modeling of Alternating Current Triboelectric Nanogenerator in the Linear Sliding Mode, Applied Physics Reviews (2020) 113 从麦克斯韦位移电流出发,模拟和计算了摩擦纳米发电机在滑动模式的输出特性 5. Theoretical Modelling of Triboelectric Nanogenerators (TENGs), Journal of Applied Physics (2020) 114 首篇从麦克斯韦位移电流出发,综述了在计算了摩擦纳米发电机输出特性的最新进展 6. Designing Rules and Optimization of Triboelectric Nanogenerator Arrays, Advanced Energy Materials (2021) 115 首次探索了阵列型TENG的几何参数 7. On the Expanded Maxwell’s Equations for Moving Charged Media System—General Theory, Mathematical Solutions and Applications in TENG, Materials Today (in press) 116 首次推导出适用于运动态介质的拓展型麦克斯韦方程组,以及求解的数学方法。该工作在移动目标通信和高分辨雷达中有潜在的应用 Ⅱ.9 摩擦纳米发电机:技术标准Triboelectric Nanogenerators—Technical Standards 1. Standards and Figure-of-Merits for Quantifying the Performance of Triboelectric Nanogenerators, Nature Communications (2015) 118 首次提出了摩擦纳米发电机输出功率的评判标准 2. Effective Energy Storage from a Triboelectric Nanogenerator, Nature Communications (2016) 119 首次探索了如何高效存储摩擦纳米发电机输出能量 3. Quantifying the Triboelectric Series, Nature Communications (2019) 120 首次提出了如何测试薄膜材料表面接触起电的电荷密度的方法与设备标准 4. Quantifying and Understanding the Triboelectric Series of Inorganic Non-Metallic Materials, Nature Communications (2020) 121 首次给出了35种功能氧化物薄膜材料的表面电荷密度的测试结果 Ⅱ.10 摩擦纳米发电机:功率优化与管理Triboelectric Nanogenerators—Power Maximization and Management 1. Pulsed Nanogenerator with Huge Instantaneous Output Power Density, ACS Nano (2013) 122 首次探索了如何管理摩擦纳米发电机具有输出电压高,内阻抗大和电流小的特性 2. Universal Power Management Strategy for Triboelectric Nanogenerator, Nano Energy (2017) 123 提出了如何管理摩擦纳米发电机输出功率的普适方法 3. Ultrahigh Charge Density Realized by Charge Pumping at Ambient Conditions for Triboelectric Nanogenerators, Nano Energy (2018) 124 首先提出了如何利用两个摩擦纳米发电机泵电荷的方法来实现表面电荷密度的增加 4. Pumping Up the Charge Density of a Triboelectric Nanogenerator by Charge-Shuttling, Nature Communications (2020) 125 首次探索了如何利用两个摩擦纳米发电机相互电荷运载的方法来实现表面电荷密度的提升 5. Integrated Charge Excitation Triboelectric Nanogenerator, Natrue Communications (2019) 126 首次探索了如何利用一个摩擦纳米发电机进行自泵电荷的方法来实现表面电荷密度的提升 6. Switched-Capacitor-Convertors Based on Fractal Design for Output Power Management of Triboelectric Nanogenerator, Nature Communications (2020) 127 首次探索了如何利用一个摩擦纳米发电机通过开关电容转换器的方法进行自泵电荷 Ⅱ.11 固体-固体接触起电的机理The Origins of Solid-Solid Contact-Electrification 1. Manipulating Nanoscale Contact Electrification by an Applied Electric Field, Nano Letters (2014) 128 首次利用施加到开尔文探针上的电压的正负变化而导致了金属-绝缘体界面电荷转移符号的反转 2. Effect of Contact-and Sliding-Mode Electrification on Nanoscale Charge Transfer for Energy Harvesting, Nano Research (2016) 129 首次探索了在接触与滑动两种模式下表面起电的差异 3. On the Electron-Transfer Mechanism in the Contact-Electrification Effect, Advanced Materials (2018) 130 首次提出了接触起电的最重要途径是通过两个物质原子之间在外压力作用下实现电子云的高度重叠,进而实现电子的跨原子跃迁 4. Raising the Working Temperature of a Triboelectric Nanogenerator by Quenching Down Electron Thermionic Emission in Contact-Electrification, Advanced Materials (2018) 131 把摩擦纳米发电机的最高工作温度提高到400℃ 5. Contact-Electrification between Two Identical Materials: Curvature Effect, ACS Nano (2019) 132 首次提出了同种材料的电荷转移是由于表面曲率变化所引起的表面态的能级位移而产生 6. Electron Transfer in Nanoscale Contact Electrification: Photon Excitation Effect, Advanced Materials (2019) 133 发现利用紫外光照射是除掉表面因接触起电所带电荷的途径之一 7. Electron Transfer in Nanoscale Contact Electrification: Effect of Temperature in the Metal-Dielectric Case, Advanced Materials (2019) 134 进一步证明金属-介电质之间的电荷转移是电子转移 8. The Overlapped Electron-Cloud Model for Electron Transfer in Contact Electrification, Advanced Functional Materials (2020) 135 进一步深化了电子云高度重叠模型是接触起电的基础模型 9. Direct Current Triboelectric Cell by Sliding an n-Type Semiconductor on a p-Type Semiconductor, Nano Energy (2019) 136 报道了在p型半导体上滑动一个n型半导体片可以在外电路观测到直流电信号 10. On the Origin of Contact-Electrification, Materials Today (2019) 137 本文是综述固体-固体界面接触起电机理的经典文献预言了两个结果:关于固液界面双电层形成的两步走的模型,关于半导体界面的摩擦伏特效应 Ⅱ.12 液体-固体接触起电的机理The Origins of Liquid-Solid Contact-Electrification 1. Quantifying Electron-Transfer in Liquid-Solid Contact Electrification and the Formation of Electric Double-Layer, Nature Communications (2020) 139 开创了量化液体-固体界面电子与离子转移的新方法,并证实双电层形成的两步走模型 2. Electron Transfer as a Liquid Droplet Contacting a Polymer Surface, ACS Nano (2020) 140 首次把单电极式摩擦纳米发电机作为一个探针来研究液体-固体接触起电 3. Probing Contact-Electrification-Induced Electron and Ion Transfers at a Liquid-Solid Interface, Advanced Materials (2020) 141 首次通过改变液体-固体接触面积来研究界面的起电,修正了传统文献对双电层形成的解释机理 4. Harvesting Water Drop Energy by a Sequential Contact-Electrification and Electrostatic-Induction Process, Advanced Materials (2014) 142 首篇利用液体-固体接触起电来利用雨水发电的开山之作 5. Harvesting Water Wave Energy by Asymmetric Screening of Electrostatic Charges on a Nanostructured Hydrophobic Thin-Film Surface, ACS Nano (2014) 143 首篇利用液体-固体接触起电和不对称的电极设计来利用雨水发电的开山之作 6. Self-Powered Triboelectric Micro Liquid/Gas Flow Sensor for Microfluidics, ACS Nano (2016) 144 首篇利用液体-固体接触起电来做监测液滴运动轨迹的文章 7. Self-Powered Triboelectric Nanosensor for Microfluidics and Cavity-Confined Solution Chemistry, ACS Nano (2015) 145 首篇把摩擦纳米发电机应用于微流体监测的文章 8. Signal Output of Triboelectric Nanogenerator at Oil-Water-Solid Multiphase Interfaces and its Application for Dual-Signal Chemical Sensing, Advanced Materials (2019) 146 首篇利用摩擦纳米发电机做探针来研究油水界面带电的文章 9. A Streaming Potential/Current-Based Microfluidic Direct Current Generator for Self-Powered Nanosystems, Advanced Materials (2015) 147 利用液体-固体界面存在的双电层的结构随着压力造成的离子浓度变化而产生的束流来发电 10. Contact Electrification at Liquid-Solid Interface, Chemical Reviews (2021) (in press) 148 关于液体-固体界面接触起电的经典综述文章 Ⅱ.13 液体-液体接触起电的机理The Origins of Liquid-Liquid Contact-Electrification 1. Studying of Contact Electrification and Electron Transfer at Liquid-Liquid Interface, Nano Energy (2021) 149 首次研究了液体-液体界面接触起电的现象 2. Quantifying Contact-Electrification Induced Charge Transfer on a Liquid Droplet after Contacting with a Liquid or Solid, Advanced Materials (2021) 150 定量测试了液体-固体与液体-液体界面处的电荷转移。证实了电子传输也在液体-液体界面发生 Ⅱ.14 气体-固体接触起电的机理The Origins of Gas-Solid Contact-Electrification 1. Probing Contact Electrification between Gas and Solid Surface (in press) 151 首次研究了气体-固体界面接触起电的现象 Ⅱ.15 摩擦伏特效应Tribovoltaic Effect 1. Photovoltaic Effect and Tribovoltaic Effect at Liquid-Semiconductor Interface, Nano Energy (2021) 152 首次明确提出了摩擦伏特效应的基本物理机制 2. The Tribovoltaic Effect and Electron Transfer at a Liquid-Semiconductor Interface, Nano Energy (2020) 153 首次证实了摩擦伏特效应在液体-半导体界面也存在 3. Tribovoltaic Effect on Metal-Semiconductor Interface for Direct-Current Low-Impedance Triboelectric Nanogenerators, Advanced Energy Materials (2020) 154 首次证实了摩擦伏特效应在金属-固体界面的存在 4. Scanning Probing of the Tribovoltaic Effect at the Sliding Interface of Two Semiconductors, Advanced Materials (2020) 155 从微观上证明了摩擦伏特效应的存在 Ⅱ.16 接触起电界面谱仪学Contact Electrification Induced Interface Spectroscopy (CEIIS) 1. Interface Inter-atomic Electron-transition Induced Photon Emission in Contact-electrification, Science Advances (2021) 156 首次报道了由于界面处两种材料接触时,由于跨原子电子跃迁所导致的光子辐射现象 Ⅱ.17 摩擦纳米发电机:一种扫描探针技术Triboelectric Nanogenerator—A New Scanning Tip Technology 1. Scanning Triboelectric Nanogenerator as a Nanoscale Probe for Measuring Local Surface Charge Density on a Dielectric Film, Applied Physics Letters (2021) 157 首次把单电极式摩擦纳米发电机原理设计到探针的结构中,测试表面电荷密度 2. Triboelectric Nanogenerator as a Probe for Measuring the Charge Transfer between Liquid and Solid Surfaces, ACS Nano (2021) 158 首次把单电极式摩擦纳米发电机作为一个探针来研究液体-固体接触起电 第三部分 Part Ⅲ Ⅲ.1 摩擦纳米发电机:微小功率源及其应用Triboelectric Nanogenerators—As a Power Source 1. Nanoscale Triboelectric-Effect-Enabled Energy Conversion for Sustainably Powering Portable Electronics, Nano Letters (2012) 161 首个报道利用摩擦纳米发电机驱动手提式电子器件 2. Hybrid Energy Cell for Degradation of Methyl Orange by Self-Powered Electrocatalytic Oxidation, Nano Letters (2013) 162 首个报道利用复合式纳米发电机进行污染物分解 3. Power-Generating Shoe Insole Based on Triboelectric Nanogenerators for Self-Powered Consumer Electronics, Nano Energy (2013) 163 首个报道利用基于摩擦纳米发电机的鞋垫子来驱动消费产品 4. Triboelectric Nanogenerator for Harvesting Wind Energy and as Self-Powered Wind Vector Sensor System, ACS Nano (2013) 164 首个报道利用基于摩擦纳米发电机收集风能 5. Radial-Arrayed Rotary Electrification for High Performance Triboelectric Generator, Nature Communications (2014) 165 首个报道高性能摩擦纳米发电机及其潜在的商业应用 6. In Vivo Powering of Pacemaker by Breathing-Driven Implanted Triboelectric Nanogenerator, Advanced Materials (2014) 166 首个报道利用呼吸带动的摩擦纳米发电机来驱动模拟的心脏起搏器 7. Biodegradable Triboelectric Nanogenerator as a Life-Time Designed Implantable Power Source, Science Advances (2016) 167 首个报道利用生物可降解的材料制作的体内植入式摩擦纳米发电机 8. Symbiotic Cardiac Pacemaker, Nature Communications (2019) 168 首个报道利用生物可降解的材料制作的摩擦纳米发电机利用动物的呼吸来驱动一个商用心脏起搏器 9. Sustainably Powering Wearable Electronics Solely by Biomechanical Energy, Nature Communications (2016) 169 首个报道完全利用生物机械能带动的摩擦纳米发电机来驱动穿戴式电子产品 10. Electrochemical Cathodic Protection Powered by Triboelectric Nanogenerator, Advanced Functional Materials (2014) 170 首个报道利用摩擦纳米发电机输出来做电化学阴极保护 11. Ultrathin, Rollable, Paper-Based Triboelectric Nanogenerator for Acoustic Energy Harvesting and Self-Powered Sound Recording, ACS Nano (2015) 171 首个报道纸质摩擦纳米发电机来收集声音能量 12. Triboelectrification-Enabled Self-Powered Detection and Removal of Heavy Metal Ions in Wastewater, Advanced Materials (2016) 172 首个报道利用摩擦纳米发电机的原理来探测和清除废水中的重金属离子 13. Self-Powered Water Splitting Using Flowing Kinetic Energy, Advanced Materials (2015) 173 首个报道利用水流驱动的摩擦纳米发电机进行水分解 14. Triboelectric Nanogenerator for Sustainable Wastewater Treatment via a Self-Powered Electrochemical Process, Advanced Energy Materials (2016) 174 首个报道利用摩擦纳米发电机的自驱动电化学进行污水处理 15. Electric Eel-Skin-Inspired Mechanically Durable and Super-Stretchable Nanogenerator for Deformable Power Source and Fully Autonomous Conformable Electronic-Skin Applications, Advanced Materials (2016) 175 首个报道利用摩擦纳米发电机作为仿生电子皮肤 16. A Self-Powered Implantable Drug-Delivery System Using Biokinetic Energy, Advanced Materials (2017) 176 首个报道利用摩擦纳米发电机来驱动药物投递 17. High Efficient Harvesting of Underwater Ultrasonic Wave Energy by Triboelectric Nanogenerator, Nano Energy (2017) 177 首个报道利用水下超声波来驱动滚珠式摩擦纳米发电机来发电 18. A Bionic Stretchable Nanogenerator for Underwater Sensing and Energy Harvesting, Nature Communications (2019) 178 首个报道可拉伸摩擦纳米发电机进行水下传感与能量回收 19. Wind-Driven Self-Powered Wireless Environmental Sensors for Internet of Things at Long Distance, Nano Energy (2020) 179 首个报道利用风力带动的摩擦纳米发电机来进行自驱动环境检测与长距离无线信号发射 Ⅲ.2 摩擦纳米发电机: 自驱动传感器Triboelectric Nanogenerators—As a Self-Powered Sensor 1. Transparent Triboelectric Nanogenerators and Self-Powered Pressure Sensors Based on Micropatterned Plastic Films, Nano Letters (2012) 180 首个报道透明的摩擦纳米发电机作为自驱动压力传感 2. A Self-Powered Triboelectric Nanosensor for Mercury Ion Detection, Angewandte Chemie (2013) 181 首个报道利用摩擦纳米发电机的原理来选择性地探测汞离子 3. A Highly Efficient Triboelectric Negative Air Ion Generator, Nature Sustainability (2021) 182 首个报道利用人体活动所驱动的摩擦纳米发电机来产生负离子 4. Harmonic-Resonator-Based Triboelectric Nanogenerator as a Sustainable Power Source and a Self-Powered Active Vibration Sensor, Advanced Materials (2013) 183 首个报道利用振动驱动的摩擦纳米发电机 5. Human Skin Based Triboelectric Nanogenerators for Harvesting Biomechanical Energy and as Self-Powered Active Tactile Sensor System, ACS Nano (2013) 184 首个报道基于人皮肤的摩擦纳米发电机 6. Triboelectric Active Sensor Array for Self-Powered Static and Dynamic Pressure Detection and Tactile Imaging, ACS Nano (2013) 185 首个报道利用摩擦纳米发电机做静态和动态压力传感 7. Triboelectrification-Based Organic Film Nanogenerator for Acoustic Energy Harvesting and Self-Powered Active Acoustic Sensing, ACS Nano (2014) 186 首个报道利用摩擦纳米发电机收集声音震动能 8. Nanometer Resolution Self-Powered Static and Dynamic Motion Sensor Based on Micro-Grated Triboelectrification, Advanced Materials (2014) 187 首个报道利用摩擦纳米发电机来做纳米尺度的自驱动位移传感 9. Personalized Keystroke Dynamics for Self-Powered Human-Machine Interfacing, ACS Nano (2015) 188 首个报道利用摩擦纳米发电机做人机界面的个性化打字输入键盘 10. Eardrum-Inspired Active Sensors for Self-Powered Cardiovascular System Characterization and Throat-Attached Anti-Interference Voice Recognition, Advanced Materials (2015) 189 首个报道利用摩擦纳米发电机做反干扰的声音识别装置和耳蜗助听器 11. A Self-Powered Angle Measurement Sensor Based on Triboelectric Nanogenerator, Advanced Functional Materials (2015) 190 首个报道利用摩擦纳米发电机做自驱动角度传感器 12. β-Cyclodextrin Enhanced Triboelectrification for Self-Powered Phenol Detection and Electrochemical Degradation, Energy & Environmental Science (2015) 191 首个报道利用摩擦纳米发电机做自驱动的污染物传感器与清理装置 13. Self-Powered, One-Stop and Multifunctional Implantable Triboelectric Active Sensor for Real-Time Biomedical Monitoring, Nano Letters (2016) 192 首个报道利用摩擦纳米发电机做多功能、自驱动、植入式生物传感 14. Self-Powered Pulse Sensor for Antidiastole of Cardiovascular Disease, Advanced Materials (2017) 193 首个报道利用摩擦纳米发电机做心血管监测自驱动传感 15. 3D Orthogonal Woven Triboelectric Nanogenerator for Effective Biomechanical Energy Harvesting and as Self-Powered Active Motion Sensors, Advanced Materials (2017) 194 首个报道基于纺织品的摩擦纳米发电机 16. A Self-Powered Angle Sensor at Nanoradian-Resolution for Robotic Arms and Personalized Medicare, Advanced Materials (2020) 195 首个报道利用摩擦纳米发电机作为自驱动角度传感器 17. All-in-One 3D Acceleration Sensor Based on Coded Liquid-Metal Triboelectric Nanogenerator for Vehicle Restraint System, Materials Today (2021) 196 摩擦纳米发电机作为加速度传感器 18. Multilanguage-Handwriting Self-Powered Recognition Based on Triboelectric Nanogenerator Enabled Machinelearning, Nano Energy (2020) 197 摩擦纳米发电机应用于人机界面的手写识别 19. Triboelectric Nanogenerators as Self-Powered Active Sensors, Nano Energy (2015) 198 摩擦纳米发电机作为自驱动传感器的第一篇综述 20. Self-Powered Sensors and Systems Based on Nanogenerators, Sensors (2020) 200 摩擦纳米发电机作为自驱动传感器的最新一篇综述 Ⅲ.3 摩擦纳米发电机:高压电压源Triboelectric Nanogenerators—As a High Voltage Source 1. Triboelectric-Generator-Driven Pulse Electrodeposition for Micropatterning, Nano Letters (2012) 201 首次报道了摩擦纳米发电机作为高压电源进行电镀 2. Self-Powered Cleaning of Air Pollution by Wind Driven Triboelectric Nanogenerator, Nano Energy (2015) 202 首次报道了利用风力驱动的摩擦纳米发电机作为高压电源来进行空气净化 3. Triboelectric Nanogenerators for Sensitive Nano-Coulomb Molecular Mass Spectrometry, Nature Nanotechnology (2017) 203 首次报道了摩擦纳米发电机作为高压电源应用在高分辨质谱仪上 4. Field Emission of Electrons Powered by a Triboelectric Nanogenerator, Advanced Functional Materials (2018) 204 首次报道了摩擦纳米发电机作为高压电源进行电子的场致发射 5. Triboelectric Microplasma Powered by Mechanical Stimuli, Nature Communications, (2018) 205 首次报道了摩擦纳米发电机作为高压电源实现微型等离子体激发 6. Triboelectric Micromotors Actuated by Ultralow Frequency Mechanical Stimuli, Nature Communications (2019) 206 首次报道了摩擦纳米发电机作为高压电源驱动静电马达 Ⅲ.4 摩擦纳米发电机:蓝色能源Triboelectric Nanogenerators—For Blue Energy 1. Networks of Triboelectric Nanogenerators for Harvesting Water Wave Energy: A Potential Approach toward Blue Energy, ACS Nano (2015) 207 首次报道了利用摩擦纳米发电机收集水波能量 2. Triboelectric Nanogenerator Based on Fully Enclosed Rolling Spherical Structure for Harvesting Low-Frequency Water Wave Energy, Advanced Energy Materials (2015) 208 首次报道了球形滚动式摩擦纳米发电机收集水波能量 3. Robust Swing-Structured Triboelectric Nanogenerator for Efficient Blue Energy Harvesting, Advanced Energy Materials (2020) 209 首次报道了摆钟式摩擦纳米发电机高效收集水波能量 4. New Wave Power, Nature (2017) 210 首次提出了利用摩擦纳米发电机网格式结构来实现蓝色能源 5. Toward the Blue Energy Dream by Triboelectric Nanogenerator Networks, Nano Energy (2017) 211 蓝色能源的第一篇综述文献 Ⅲ.5 复合式能量回收系统Hybridized Energy Systems 1. Nanowire Structured Hybrid Cell for Concurrently Scavenging Solar and Mechanical Energies, Journal of the American Chemical Society (2009) 212 首次报道了一个器件同时可以收集太阳能与机械能-复合能量回收系统的开山之作 2. Compact Hybrid Cell Based on a Convoluted Nanowire Structure for Harvesting Solar and Mechanical Energy, Advanced Materials (2011) 213 首次报道了一个器件同时收集太阳能与机械能的复合能量回收系统 3. Hybrid Nanogenerator for Concurrently Harvesting Biomechanical and Biochemical Energy, ACS Nano (2010) 214 首次报道了一个器件同时收集生物机械能与生物化学能的复合能量回收系统 4. Nanowire-Quantum Dot Hybridized Cell for Harvesting Sound and Solar Energies, The Journal of Physical Chemistry Letters (2010) 215 首次报道了一个器件同时收集声音振动能与太阳能的复合能源系统 5. Fiber Supercapacitors Made of Nanowire-Fiber Hybrid Structures for Wearable/Flexible Energy Storage, Angewandte Chemie (2011) 216 首次报道了利用纤维制作的超电容 6. Fiber-Based Hybrid Nanogenerators for/as Self-Powered Systems in Biological Liquid, Angewandte Chemie (2011) 217 首次报道了利用纤维制作的复合能源系统 7. Flexible Hybrid Energy Cell for Simultaneously Harvesting Thermal, Mechanical, and Solar Energies, ACS Nano (2013) 218 首次报道了一个器件同时收集热能、机械能与太阳能的复合能源系统 8. Simultaneously Harvesting Mechanical and Chemical Energies by a Hybrid Cell for Self-Powered Biosensors and Personal Electronics, Energy & Environmental Science (2013) 219 首次报道了一个器件同时收集化学能与机械能的复合能源系统 9. Hybridizing Triboelectrification and Electromagnetic Induction Effects for High-Efficient Mechanical Energy Harvesting, ACS Nano (2014) 220 首次报道了把摩擦纳米发电机和传统电磁发电机结合起来的复合能源系统 10. Silicon-Based Hybrid Cell for Harvesting Solar Energy and Raindrop Electrostatic Energy, Nano Energy (2014) 221 首次报道了一个器件同时收集太阳能与雨水能的复合能源系统 11. A Hybridized Power Panel to Simultaneously Generate Electricity from Sunlight, Raindrops and Wind Around the Clock, Advanced Energy Materials (2015) 222 首次报道了一个器件同时收集太阳能、雨水能与风能的复合能源系统 12. Triboelectric-Pyroelectric-Piezoelectric Hybrid Cell for High-Efficient Energy-Harvesting and Self-Powered Sensing, Advanced Materials (2015) 223 首次报道了把摩擦发电、热势发电与压电发电结合在一起的复合能源系统 13. Micro-Cable Structured Textile for Simultaneously Harvesting Solar and Mechanical Energy, Nature Energy (2016) 224 首次报道了利用纺织品同时收集风能与太阳能的复合能源系统 14. Optical Fiber/Nanowire Hybrid Structures for Efficient Three-Dimensional Dye-Sensitized Solar Cells, Angewandte Chemie (2009) 225 首次报道了利用光纤与径向纳米线阵列相结合来高效收集太阳能的三维结构 15. Planar Waveguide-Nanowire Integrated Three-Dimensional Dye-Sensitized Solar Cells, Nano Letters (2010) 226 首次报道了利用平面光波导与法向纳米线阵列相结合来高效收集太阳能的三维结构 Ⅲ.6 热势纳米发电机与传感Pyroelectric Nanogenerators and Sensors 1. Pyroelectric Nanogenerators for Harvesting Thermoelectric Energy, Nano Letters (2012) 227 首次报道了利用热势效应来收集热能的方法 2. Single Micro/Nanowire Pyroelectric Nanogenerators as Self-Powered Temperature Sensors, ACS Nano (2012) 228 首次报道了利用热势纳米发电机做温度传感 3. Light-Induced Pyroelectric Effect as an Effective Approach for Ultrafast Ultraviolet Nanosensing, Nature Communications (2015) 229 首次报道了利用热势效应来实现高灵敏度UV传感的方法 4. Standard and Figure-of-Merit for Quantifying the Performance of Pyroelectric Nanogenerators, Nano Energy (2019) 230 首次建立了表征热势纳米发电机的方法和标准 5. Conjuncted Pyro-Piezoelectric Effect for Self-Powered Simultaneous Temperature and Pressure Sensing, Advanced Materials (2019) 231 首次报道了利用热势效应与压阻效应相结合的方法来实现温度与压力传感的方法 Ⅲ.7 自驱动传感与系统Self-Powered Sensors and Systems 1. Self-Powered Nanotech, Scientific American (2008) 232 首次提出了自驱动系统的原创大概念,已经得到世界范围的高度认可 2. Self-Powered Nanowire Devices, Nature Nanotechnology (2010) 233 首次实现了完全基于纳米线阵列的自驱动传感系统 3. Toward Self-Powered Sensor Network, Nano Today (2010) 234 首次定义了自驱动传感系统的概念和组成 4. Self-Powered System with Wireless Data Transmission, Nano Letters(2011) 235 首次利用压电纳米发电机实现了能够无线发射信号的自驱动传感系统 5. Self-Powered Environmental Sensor System Driven by Nanogenerators, Energy & Environmental Science (2011) 236 首次利用压电纳米发电机驱动环境传感系统 6. Self-Powered Nanosensors and Nanosystems, Advanced Materials (2011) 237 首次定义了自驱动传感系统的概念和组成 7. Optical Fiber-Based Core-Shell Coaxially Structured Hybrid Cells for Self-Powered Nanosystems, Advanced Materials (2012) 238 首次报道了基于光纤的太阳能-机械能复合传感系统 8. Paper-Based Supercapacitors for Self-Powered Nanosystems, Angewandte Chemie (2012) 239 首次报道了应用于自驱动系统的纸质超电容 9. Self-Powered Ultrasensitive Nanowire Photodetector Driven by a Hybridized Microbial Fuel Cell, Angewandte Chemie (2012) 240 首次报道了微生物燃料电池驱动的超灵敏光探测器 10. A Paper-Based Nanogenerator as a Power Source and Active Sensor, Energy & Environmental Science (2013) 241 首次报道了基于纸质的纳米发电机 11. Keystroke Dynamics Enabled Authentication and Identification Using Triboelectric Nanogenerator Array, Materials Today (2018) 242 首次报道了利用纳米发电机阵列做的智能键盘来收集个人打字输入特征分析 12. A Highly Sensitive, Self-Powered Triboelectric Auditory Sensor for Social Robotics and Hearing Aids, Science Robotics (2018) 243 首次报道了基于纸质摩擦纳米发电机的麦克风与助听器 13. Eye Motion Triggered Self-Powered Mechnosensational Communication System Using Triboelectric Nanogenerator, Science Advances (2017) 244 首次报道了基于眼球运动驱动的摩擦纳米发电机来实现人机界面信息交互 14. Machine-Knitted Washable Sensor Array Textile for Precise Epidermal Physiological Signal Monitoring, Science Advances (2020) 245 首次报道了基于纺织品的摩擦纳米发电机在体征监测与健康防护方面的应用 Ⅲ.8 自充电能源包Self-Charging Power Cell 1. Hybridizing Energy Conversion and Storage in a Mechanical-to-Electrochemical Process for Self-Charging Power Cell, Nano Letters (2012) 246 首次报道了直接把机械能高效转化为电化学能的复合能源转换与存储系统—自充电能源包 2. A Universal Self-Charging System Driven by Random Biomechanical Energy for Sustainable Operation of Mobile Electronics, Nature Communications (2015) 247 首次报道了由无规则运动所驱动的摩擦纳米发电机与自充电能源包 3. Flexible Self-Charging Power Cell for One-Step Energy Conversion and Storage, Advanced Energy Materials (2014) 248 首次报道了一步直接把机械能高效转化为电化学能的自充电能源包 Ⅲ.9 分布式能源的熵理论Entropy Theory of Distributed Energy 1. Entropy Theory of Distributed Energy for Internet of Things, Nano Energy (2019) 249 首次阐述了如何把这些高熵能源有效地转换成分布式电能来满足物联网和传感网络的需求 第四部分 Part Ⅳ Ⅳ.1 压电电子学:原理与器件Piezotronics—Principle and Devices 1. Piezoelectric Field Effect Transistor and Nanoforce Sensor Based on a Single ZnO Nanowire, Nano Letters (2006) 253 首篇开始认识压电电场在载流子输运中的调制作用的文献 2. Piezoelectric Gated Diode of a Single ZnO Nanowire, Advanced Materials (2007) 254 第一篇报道压电作为门电压进行调控的概念 3. Nanopiezotronics, Advanced Materials (2007) 255 首次明确提出并定义了压电电子学的概念 4. Piezoelectric-Potential-Controlled Polarity-Reversible Schottky Diodes and Switches of ZnO Wires, Nano Letters (2008) 256 首次解释了压电电子学效应的物理内涵和基本特征 5. Effects of Piezoelectric Potential on the Transport Characteristics of Metal-ZnO Nanowire-Metal Field Effect Transistor, Journal of Applied Physics (2009) 257 进一步深化了压电电子学效应的物理内涵 6. Piezotronic and Piezophototronic Effects, The Journal of Physical Chemistry Letters (2010) 258 首次明确定义了压电电子学效应与压电光电子学效应 7. Piezopotential Gated Nanowire-Nanotube Hybrid Field-Effect Transistor, Nano Letters (2010) 259 首次证明压电电场可以直接作为门电压来制造场效应三极管 8. Taxel-Addressable Matrix of Vertical-Nanowire Piezotronic Transistors for Active and Adaptive Tactile Imaging, Science (2013) 260 首次制造出基于纳米线阵列来制造压电电子学三极管阵列 9. Piezotronic Nanowire-Based Resistive Switches as Programmable Electromechanical Memories, Nano Letters (2011) 261 首次进行基于纳米线压电电子学三极管阵列电路来实现应变控制下的逻辑运算 10. Strain-Gated Piezotronic Transistors Based on Vertical Zinc Oxide Nanowires, ACS Nano (2012) 262 首次展示基于单根垂直纳米线的压电电子学三极管的基本特性 11. Piezotronic Effect on the Transport Properties of GaN Nanobelts for Active Flexible Electronics, Advanced Materials (2012) 263 首次研究了在GaN纳米带材料中也有压电电子学效应 12. Piezo-Phototronic Effect of CdSe Nanowires, Advanced Materials (2012) 264 首次研究了在CdSe纳米线材料中的压电电子学效应 13. Piezotronic Effect in Flexible Thin-Film Based Devices, Advanced Materials (2013) 265 首次证明了薄膜材料中也具有压电电子学效应 14. Enhanced Performance of Flexible ZnO Nanowire Based Room-Temperature Oxygen Sensors by Piezotronic Effect, Advanced Materials (2013) 266 首次报道了在室温下的高灵敏度氧气传感器 15. Piezotronic Effect in Solution-Grown P-type ZnO Nanowires and Films, Nano Letters (2013) 267 首次报道了p型氧化锌纳米线和薄膜材料中也具有压电电子学效应 16. Temperature Dependence of the Piezotronic Effect in ZnO Nanowires, Nano Letters (2013) 268 首次研究了氧化锌纳米线压电电子学效应在77~300 K之间对于温度的依赖 17. Ultrathin Piezotronic Transistors with 2 nm Channel Lengths, ACS Nano (2018) 269 首次证明对于2 纳米厚的超薄片,压电电子学效应仍然可以有效地调制载流子输运过程 18. Temperature Dependence of the Piezotronic and Piezophototronic Effects in a-axis GaN Nanobelts, Advanced Materials (2015) 270 首次研究了氮化镓纳米带压电电子学效应在77~300 K之间对于温度的依赖 19. Piezo-Phototronic Effect on Selective Electron or Hole Transport through Depletion Region of Vis-NIR Broadband Photodiode, Advanced Materials (2017) 271 利用压电电子学效应分别研究电子和空穴在界面处的输运过程 20. Piezotronic Effect on Rashba Spin-Orbit Coupling in a ZnO/P3HT Nanowire Array Structure, ACS Nano (2018) 272 首次报道了在室外下压电电子学效应对于电子自旋的调控 21. Flexoelectronics of Centrosymmetric Semiconductors, Nature Nanotechnology (2020) 273 首次报道了对于具有中心对称的半导体例如硅和锗仍然具有绕曲电效应 22. Piezotronics and Piezo-Phototronics for Adaptive Electronics and Optoelectronics, Nature Reviews Materials (2016) 274 关于压电电子学与压电光电子学的综述 23. Piezotronics and Piezo-Phototronics—Fundamentals and Applications, National Science Review (2014) 275 关于压电电子学与压电光电子学的综述 24. Piezotronics and Piezo-Phototronics of Third Generation Semiconductor Nanowires, Chemical Reviews (2019) 276 关于压电电子学与压电光电子学全面的综述 25. Advances in Piezotronic Transistors and Piezotronics, Nano Today (2021) 277 关于压电电子学与压电光电子学最新进展的综述 Ⅳ.2 压电电子学:应变传感器Piezotronics—Strain Sensors 1. Flexible Piezotronic Strain Sensor, Nano Letters (2008) 278 首篇关于压电电子学效应来调制柔性应变传感器 2. High Performance of ZnO Nanowire Protein Sensors Enhanced by the Piezotronic Effect, Energy & Environmental Science (2013) 279 首篇关于压电电子学效应来调制蛋白质传感器 3. Piezotronic Effect on the Sensitivity and Signal Level of Schottky Contacted Proactive Micro/Nanowire Nanosensors, ACS Nano (2013) 280 首次研究压电电子学效应对于基于纳米线具有肖特基接触的传感器信号和选择性的调控 4. Nano-Newton Transverse Force Sensor Using a Vertical GaN Nanowire based on the Piezotronic Effect, Advanced Materials (2013) 281 首篇利用压电电子学效应来测试纳牛顿级别的力传感器 5. GaN Nanobelt-Based Strain-Gated Piezotronic Logic Devices and Computation, ACS Nano (2013) 282 首次利用基于氮化镓纳米带进行压电电子学逻辑运算 6. Strain-Gated Piezotronic Logic Nanodevices, Advanced Materials (2010) 283 首次利用基于氧化锌纳米线进行压电电子学逻辑运算 Ⅳ.3 压电电子学:理论Piezotronics—Theory 1. Equilibrium Potential of Free Charge Carriers in a Bent Piezoelectric Semiconductive Nanowire, Nano Letters (2009) 284 首次从理论上计算在压电半导体纳米线中压电电势的分布,是压电电子学的基础 2. Fundamental Theory of Piezotronics, Advanced Materials (2011) 285 首次发展了压电电子学效应的半经典理论 3. Piezo-Phototronics Effect on Nano/Microwire Solar Cells, Energy & Environmental Science (2012) 286 首次发展了基于压电光电子学效应来调制光伏电池效率的半经典理论 4. First Principle Simulations of Piezotronic Transistors, Nano Energy (2015) 287 首次发展了压电电子学效应的第一性原理理论 5. Fundamental Theories of Piezotronics and Piezo-Phototronics, Nano Energy (2015) 288 首次综述了压电电子学效应与压电光电子学效应的基础理论体系 Ⅳ.4 压电光电子学:原理与器件Piezo-Phototronics—Principle and Devices 1. Designing the Electric Transport Characteristics of ZnO Micro/Nanowire Devices by Coupling Piezoelectric and Photoexcitation Effects, ACS Nano (2010) 289 首次提出了压电光电子学效应的概念 2. Optimizing the Power Output of a ZnO Photocell by Piezopotential, ACS Nano (2010) 290 首次提出了压电光电子学效应的基本物理图像和机制 3. Enhancing Sensitivity of a Single ZnO Micro-/Nanowire Photodetector by Piezo-phototronic Effect, ACS Nano (2010) 291 首次研究了压电光电子学效应如何提高氧化锌纳米线基光探测器的效率 4. Enhanced Cu2S/CdS Coaxial Nanowire Solar Cells by Piezo-Phototronic Effect, Nano Letters (2012) 292 首次研究了压电光电子学效应如何提高Cu2S/CdS光伏电池的效率 5. Enhancing Light Emission of ZnO Microwire-Based Diodes by Piezo-Phototronic Effect, Nano Letters (2011) 293 首次研究了压电光电子学效应如何提高n-ZnO/p-GaN LED发光的效率 6. Largely Enhanced Efficiency in ZnO Nanowire/P-Polymer Hybridized Inorganic/Organic Ultraviolet Light-Emitting Diode by Piezo-Phototronic Effect, Nano Letters (2013) 294 首次研究了压电光电子学效应如何提高n-ZnO/p-高分子 LED发光的效率 7. High-Resolution Electroluminescent Imaging of Pressure Distribution Using a Piezoelectric Nanowire LED Array, Nature Photonics (2013) 295 首次制造了基于压电光电子学效应的n-ZnO/p-GaN 纳米线LED阵列 8. Piezo-Phototronic Effect Enhanced Visible/UV Photodetector of a Carbon-Fiber/ZnO-CdS Double-Shell Microwire, ACS Nano (2013) 296 首次报道了压电光电子学效应调制ZnO-CdS可见光与紫外光探测器 9. Optimizing Performance of Silicon-Based p-n Junction Photodetectors by the Piezo-Phototronic Effect, ACS Nano (2014) 297 首次报道了压电光电子学效应调制硅基光探测器的效率 10. Piezo-Phototronic Boolean Logic and Computation Using Photon and Strain Dual-Gated Nanowire Transistors, Advanced Materials (2015) 298 首次报道了利用压电光电子学器件进行光与应变共同调控的逻辑运算电路 11. Ultrafast Response p-Si/n-ZnO Heterojunction Ultraviolet Detector Based on Pyro-Phototronic Effect, Advanced Materials (2016) 299 首次报道了热势压电电子学效应来调制p-Si/n-ZnO紫外光探测器的响应时间 12. Largely Improved Near-Infrared Silicon-Photosensing by the Piezo-Phototronic Effect, ACS Nano (2017) 300 首次报道了压电光电子学效应调制硅基近红外光探测器的灵敏度 13. Self-Powered Si/CdS Flexible Photodetector with Broadband Response from 325 to 1550 nm Based on Pyro-Phototronic Effect: An Approach for Photosensing below Bandgap Energy, Advanced Materials (2018) 301 首次报道了压电光电子学效应调制Si/CdS光探测器从紫外到红外大范围的光响应灵敏度 14. Piezo-Phototronic Effect Enhanced Efficient Flexible Perovskite Solar Cells, ACS Nano (2019) 302 首次报道了压电光电子学效应调制钙钛矿光伏电池的效率 15. Piezo-Phototronic Effect Enhanced Polarization-Sensitive Photodetectors Based on Cation-Mixed Organic- Inorganic Perovskite Nanowires, Materials Today (2020) 303 首次报道了压电光电子学效应调控基于有机-无机钙钛矿复合光传感器的灵敏度 16. Piezo-Phototronic Effect Controlled Dual-Channel Visible Light Communication (PVLC) Using InGaN/GaN Multiquantum Well Nanopillars, Small (2015) 304 首次报道了压电光电子学效应调控基于InGaN/GaN的量子阱双通道可见光通信器件 17. Piezophototronic Effect in Single-Atomic-Layer MoS2 for Strain-Gated Flexible Optoelectronics, Advanced Materials (2016) 305 首次报道了二维MoS2材料中的压电光电子学效应 18. Dynamic Real-Time Imaging of Living Cell Traction Force by Piezo-Phototronic Light Nano-Antenna Array, Science Advances (2021) 306 首次利用基于压电光电子效应的纳米线阵列实现实时原位高空间分辨率单细胞牵引力的精确测量 Ⅳ.5 压电光电子学:理论Piezo-Phototronics—Theory 1. Nanowire Piezo-Phototronic Photodetector: Theory and Experimental Design, Advanced Materials (2012) 307 首次发展了压电光电子学效应的半经典理论 2. Theory of Piezo-Phototronics for Light-Emitting Diodes, Advanced Materials (2012) 308 首次发展了基于压电光电子学效应来调制界面载流子输运与结合的半经典理论 3. Theoretical Study of Piezo-Phototronic Nano-LEDs, Advanced Materials (2014) 309 首次发展了基于压电光电子学效应来调制LED效率的能带理论 Ⅳ.6 压电光子学Piezophotonics 1. Dynamic Pressure Mapping of Personalized Handwriting by a Flexible Sensor Matrix Based on the Mechanoluminescence Process, Advanced Materials (2015) 310 首次报道了压电光子学效应对于机械荧光过程的调制及其在应力成像和体征识别方面的应用 Ⅳ.7 摩擦电子学Tribotronics1. Contact Electrification Field-Effect Transistor, ACS Nano (2014) 311 首次介绍了接触起电控制的场效应三极管的概念 2. Tribotronic Logic Circuits and Basic Operations, Advanced Materials (2015) 312 首次介绍了利用摩擦电子学原理设计的逻辑电路及其基本运算 3. Organic Tribotronic Transistor for Contact-Electrification-Gated Light-Emitting Diode, Advanced Functional Materials (2015) 313 首次介绍了利用有机材料设计的、接触起电控制的LED发光二极管 4. Flexible Organic Tribotronic Transistor Memory for a Visible and Wearable Touch Monitoring System, Advanced Materials (2016) 314 首次报道了利用有机材料设计的应用于触摸监控系统中的摩擦电子学记忆单元 5. Theory of Tribotronics, Advanced Electronic Materials (2015) 315 首次发展了摩擦电子学的基本理论 6. Theoretical Study of Triboelectric-Potential Gated/Driven Metal-Oxide-Semiconductor Field-Effect Transistor, ACS Nano (2016) 316 首次模拟了接触电势 对于基于金属-氧化物的场效应管的调制效果 7. Nanoscale Triboelectrification Gated Transistor, Nature Communications (2020) 317 首次把摩擦电子学的器件做到了纳米级尺寸 8. Tribotronics for Active Mechanosensation and Self-Powered Microsystems, Advanced Functional Materials (2019) 318 首次综述了摩擦电子学的进展及其在触感电子学与自驱动系统中的应用 Ⅳ.8 热势光电子效应Pyro-Phototronic Effect 1. Ultrafast Response p-Si/n-ZnO Heterojunction Ultraviolet Detector Based on Pyro-Phototronic Effect, Advanced Materials (2016) 319 首次提出热势光电子效应 2. Light-Induced Pyroelectric Effect as an Effective Approach for Ultrafast Ultraviolet Nanosensing, Nature Communications (2015) 320 首次探讨利用热势效应进行光电子探测 Ⅳ.9 交流光伏效应AC Photovoltaic Effect 1. Alternating Current Photovoltaic Effect, Advanced Materials (2020) 321 首次发现了具有交流特征的光伏电池
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