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2018先进功能材料与原子力显微技术
学术研讨会 (AFM2 2018)
暨2018中国硅酸盐学会
微纳技术分会学术年会
摘要及优惠注册截止:2018.11.15
南京航空航天大学
2018 年 12 月 14-16日
http://afm2018.conf.scholarset.com/
压电原子力显微技术暨纳米尺度力电耦合高级研讨会已有十余年的历史,本届会议是继2010 年北京科技大学、2013 年南京大学、2016 年北京航空航天大学、和 2017 年中国地质大学(武汉)会议后,该系列研讨会第五次召开。
2017武汉研讨会
研讨会旨在聚集学术界及工业界信息功能材料、先进能源材料以及原子力显微技术等学科领域的专家学者,交流思想、讨论问题、促进合作,深入研究先进的原子力显微方法和数据分析在信息功能材料、先进能源材料、生物体系中的应用,并有铁电多铁材料、钙钛矿太阳能电池、和锂离子电池等领域多位领袖做大会报告。今年也是该研讨会首次以中国硅酸盐学会微纳技术分会学术年会的形式举行,会议期间,还将举行中国硅酸盐学会微纳技术分会第一届理事会第二次会议。
应广大参会者要求,研讨会将在12月14日下午1:30-6:00,在南京航空航天大学举办三场先进功能材料原子力显微技术高级讲习课程,邀请三位国际著名专家授课,欢迎大家参加。讲习课程包含在研讨会注册费之中,不额外收费。
注册即将截止,请尽快提交会议注册回执。
Ramesh武汉研讨会大会报告
Ramamoorthy Ramesh, 彪悍的人生无需解释,总引用 73000,H因子130!
Sang-Wook Cheong, 有人曾问,Cheong和Ramesh年复一年地听对方的大会报告,会不会腻味?总引用47000,H因子102!
陈龙庆在2017中国新锐科技论坛
陈龙庆,没有陈龙庆,也许就没有Ramesh!以相场计算,收获35000总引用,H因子89!
潘晓晴,没有潘晓晴,也就没有陈龙庆?2018已经通讯一篇Nature Nanotechnology,一篇PRL,和 三篇Nature Communications!
David Ginger在武汉研讨会
David Ginger, 想套磁Chemical Review 副主编么?发明光电流AFM,解析钙钛矿太阳能电池,Nature Photonics (2018),Nature Materials (2017)。
Jonathan Spanier, 畴界共振增强可调微波铁电器件,Nature (2018)。
Josh Agar,AFM和 机器学习的完美结合,Advanced Materials (2018) 。
Roger Proksch,明明可以做物理,偏偏要去开公司,一样研究钙钛矿太阳能:Nature Materials (2018) 。
Brian Rodriguez,双频跟踪(DART)论文的第一作者,带宽激励的共同发明人(Band Excitation),生物PFM的先行者。
Jan Seidel在武汉研讨会
Jan Seidel,开发世界首个畴界原型器件,Science Advances (2017)。
Seungbum Hong,电荷梯度显微术发明人,PNAS (2014)。
Leonhard Tobias,钙钛矿光伏畴结构,Energy & Environmental Science (2017)。
Lingfei Wang,新鲜出炉的Nature Materials, 铁电调控斯格明子!
曾开阳,新鲜出炉的多场耦合AFM综述,Advanced Materials (2018)。
国内特邀报告人(持续更新中)
王中林(纳米能源所),郭万林(南航),郑泉水(清华),陈伟球(浙大),陈翔宇(纳米所),陈祖煌(哈工大深圳),程光磊(中科大),程志海(人大),戴吉岩(香港理工),董帅(东南大学),段纯刚(华东师大),高鹏(北大),高兴森(华南师大), 谷林(物理所),郭栋(北航),何佳清(南科大),洪家旺(北理工),黄厚兵(北理工), 江安全(复旦), 李敬锋(清华),李桃(西交大),刘明(西交大), 刘晓燕(重庆科技学院),吕笑梅(南大),马秀良(金属所),聂越峰(南大), 潘锴(湘潭大学),潘晓晴(加州大学尔湾分校),沈彩(宁波材料所),田博博 (华东师大),汪尧进(南理工),王杰(浙大), 王轲(清华),王鹏飞(中科大), 王学云(北理工),熊克(南航),颜佳伟(厦大), 殷月伟(中科大),游雨蒙(东南大学),于浦(清华),袁国亮(南京理工),翟晓芳(中科大),张海霞(北大),张金星(北师大),张林兴 (北科大),张跃飞(北工大), 郑跃(中山大学),曾华荣(硅酸盐所),曾敏 (华南师大)。
会议主席
高存法(南京航空航天大学)
李江宇(华盛顿大学)
李敬锋(清华大学)
主办单位
中国硅酸盐学会微纳技术分会
中国力学学会电子电磁器件力学工作组
承办单位
南京航空航天大学机械结构力学及控制国家重点实验室
中国科学院深圳先进技术研究院深圳市微纳尺度生物力学检测与技术重点实验室
江苏省力学学会固体力学专业委员会
北京知社学人科技开发有限公司
大会秘书
师岩(南京航空航天大学)
E-mail :yshi@nuaa.edu.cn
会务联系
afm@scholarset.com
会议地点
南京航空航天大学
会议时间
2018年12月14-16日
Conference Agenda |
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Friday December 14th |
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12:00 – 22:30 |
会议注册 Registration 御苑宾馆 Lobby of Yuyuan Hotel |
13:30 – 18:10 |
讲 习Tutorial 航空宇航学院(A18号楼)529报告厅 |
18:30 – 20:00 |
晚 餐Dinner 御苑宾馆一楼 Dining Room of Yuyuan Hotel |
20:00 – 22:00
|
分会理事会 Committee Meeting 御苑宾馆四楼会议室 |
Conference Agenda :Tutorial |
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December 14th (13:30 -18:00) |
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13:30-14:40 |
Tutorial 1 Scanning Probe Methods for Photovoltaics David Ginger |
14:40-15:00 |
——Discussionand Break —— |
15:00-16:10 |
Tutorial 2 Introduction to Nanomechanical Measurements with Atomic Force Microscopy Roger Proksch |
16:10-16:30 |
——Discussionand Break —— |
16:30-18:00 |
Tutorial 3 Ferroelectric or Electrochemical? Artifacts in Piezoresponse Force Microscopy Jiangyu Li |
Conference Agenda |
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Saturday December 15th |
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07:30 – 18:30 |
会议注册 Registration 逸夫科学馆大厅 Lobby of Yifu Hall |
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08:00 – 08:30 |
开幕式 Opening Ceremony 逸夫科学馆报告厅 Main Classroom of Yifu Hall |
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08:30 – 10:00 |
大会报告 Plenary Session I 逸夫科学馆报告厅 Main Classroom of Yifu Hall |
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10:00 – 10:30 |
墙报/茶歇 Poster/Coffee Break 逸夫科学馆大厅 First Floor of Yifu Hall |
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10:30 – 12:16 |
主题报告 Keynote Session I |
Piezoelectric Materials I.A 主报告厅 Main Classroom of Yifu Hall |
Electromechanical Probes I.B 长空厅 Changkong Classroom |
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12:16 – 13:40 |
午餐 LunchBreak 一食堂三楼桃李园 Third Floor of First Canteen |
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13:40 – 15:40 |
大会报告 Plenary Session II 逸夫科学馆报告厅 Main Classroom of Yifu Hall |
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15:40 – 16:10 |
墙报/茶歇 Poster/Coffee Break First Floor of Yifu Hall |
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16:10 – 18:30 |
主题报告 Keynote Session II |
Transport Behaviors II.A 主报告厅 Main Classroom of Yifu Hall |
Functional Devices II.B 长空厅 Changkong Classroom |
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18:45 – 20:30 |
晚宴 Banquet 御苑宾馆一楼 Dining Room of Yuyuan Hotel |
Conference Agenda |
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Sunday December 16th |
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08:00 – 10:10 |
大会报告及墙报颁奖 Plenary Session III and Poster Award 逸夫科学馆报告厅 Main Classroom of Yifu Hall |
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10:10 – 10:20 |
茶歇 Coffee Break |
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10:20 – 12:13 |
主题报告 Keynote Session III |
Atomic Imaging III.A 主报告厅 Main Classroom of Yifu Hall |
2D Systems III.B 长空厅 Changkong Classroom |
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12:13 – 13:30 |
午餐 Lunch Break 一食堂三楼桃李园 Third Floor of First Canteen |
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13:30 – 15:50 |
主题报告 Keynote Session IV |
Multiferroics and Magnetism IV.A 主报告厅 Main Classroom of Yifu Hall |
Theory and Computation IV.B 长空厅 Changkong Classroom |
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15:50 – 16:10 |
茶歇Coffee Break 逸夫科学馆大厅 First Floor of Yifu Hall |
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16:10 – 18:16 |
主题报告 Keynote Session V |
Electrochemical Couplings V.A 主报告厅 Main Classroom of Yifu Hall |
Functional Probes V.B 长空厅 Changkong Classroom |
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18:30 – 19:30 |
晚餐Dinner 御苑宾馆一楼 Dining Room of Yuyuan Hotel |
Plenary Session |
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Plenary Session I December 15th (08:30 -10:00) Main Classroom of Yifu Hall | Chair: Jing-Feng Li |
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08:30-09:00 |
Observation of Room Temperature Polar Skyrmions |
Ramamoorthy Ramesh |
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09:00-09:30 |
Probing van der Waals Interactions Using Atomic Force Microscopy |
郭万林 Wanlin Guo |
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09:30-10:00 |
Merging Chemical and Functional Imaging at the Nanoscale |
David Ginger |
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Plenary Session II December 15th (13:40-15:40) Main Classroom of Yifu Hall | Chair: Jiangyu Li |
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13:40-14:10 |
Polarization-Induced Conductance and Ferromagnetism at Ferroelectric/Insulator Interfaces 潘晓晴 Xiaoqing Pan |
14:10-14:40 |
Excitations in Symmetry-Broken Phases Jonathan Spanier |
14:40-15:10 |
Atomic Mapping of Domains and Interfacial Structures in Ferroelectric Films 马秀良 Xiuliang Ma |
15:10-15:40 |
Understanding Mechanically Induced Domain Switching in Ferroelectric Thin Films Guided by Phase-Field Modeling 陈龙庆 Long-Qing Chen |
Plenary Session III December 16th (08:00 -10:00) Main Classroom of Yifu Hall | Chair: Weiqiu Chen |
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08:00-08:30 |
On Electron Transfer Mechanism in Contact-Electrification Effect 王中林Zhong-Lin Wang |
08:30-09:00 |
Structural Superlubricity: Challenges in Crossing Atomic to Macroscopic Scale 郑泉水 Quanshui Zheng |
09:00-09:30 |
Electromechanical Behavior of Ionic Polymer Metal Composite Modified by BaTiO3 熊克 Ke Xiong |
09:30-10:00 |
Ferroelectric Domain Structure in Bulk BiFeO3 Crystals Sang-Wook Cheong |
Scientific Program |
|
08:00-08:30 |
December 15th Opening Ceremony Main Classroom of Yifu Hall | Chair: Cunfa Gao |
Plenary Session I (08:30 -10:00) Main Classroom of Yifu Hall | Chair: Jing-Feng Li |
|
08:30-09:00 |
Lecture 1 Observation of Room Temperature Polar Skyrmions Ramamoorthy Ramesh |
09:00-09:30 |
Lecture 2 Probing van der Waals Interactions Using Atomic Force Microscopy 郭万林 Wanlin Guo |
09:30-10:00 |
Lecture 3 Merging Chemical and Functional Imaging at the Nanoscale David Ginger |
10:00-10:30 |
—— Poster Session and Coffee Break —— First Floor of Yifu Hall |
Keynote session I.A (10:30 -12:16) Piezoelectric Materials Main Classroom of Yifu Hall | Chair: Ke Wang, Yumeng You |
|
10:30-10:50 |
Molecular Piezoelectrics Yumeng You |
10:50-11:10 |
Giant Polarization in Super-Tetragonal Ferroelectric Thin Films Through a New Concept of Interphase Strain |
Linxing Zhang |
|
11:10-11:30 |
Phase Structures and Piezoelectric Response of Sol-Gel Processed (001)-Oriented KNN-Based Thin Films |
Jin Luo, Jing-Feng Li |
|
11:30-11:50 |
Rotating a Phase Boundary: Potassium-Sodium-Niobate Derivates Ke Wang |
11:50-12:03 |
Nanoscale Investigation on Domain Evolution Behavior in the Pb(Mg1/3Nb2/3)O3-0.28PbTiO3 Relaxor Ferroelectric Single Crystal via Piezoresponse Force Microscopy |
Qingyuan Hu |
|
12:03-12:16 |
Effect of the Oxygen Octahedral Structure on the Performance and Temperature Stability of Ferroelectric Morphotropic Phase Boundary |
Kang Yan |
|
Keynote session I.B (10:30 -12:16) Electromechanical Probes Changkong Classroom | Chair: Cai Shen, Deyang Chen |
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10:30-10:50 |
Visualization and Imaging of Electrochemical and Mechanical Properties of Materials for Batteries and Fuel Cells S. Hong |
10:50-11:10 |
Transplantable and Tunable Strain Engineering in Complex Oxide Thin Films |
Deyang Chen |
|
11:10-11:30 |
The Role of Humidity and Crosslinking on Collagen Piezoelectricity |
B.J. Rodriguez |
|
11:30-11:50 |
Direct Study of Electric Properties of PC 12 Cells and Hippocampal Neurons by EFM and KPFM |
Cai Shen |
|
11:50-12:03 |
Smart Versus Big Data Analysis in AFM: Why Chose Relaxor |
R. Stomp |
|
12:03-12:16 |
Domain Dynamics in Organic Ferroelectric Polymers |
Bobo Tian |
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12:16-13:40 |
—— Lunch Break —— Third Floor of First Canteen |
Plenary Session II (13:40-15:40) Main Classroom of Yifu Hall | Chair: Jiangyu Li |
|
13:40-14:10 |
Lecture 1 Polarization-Induced Conductance and Ferromagnetism at Ferroelectric/Insulator Interfaces 潘晓晴 Xiaoqing Pan |
14:10-14:40 |
Lecture 2 Excitations in Symmetry-Broken Phases Jonathan Spanier |
14:40-15:10 |
Lecture 3 Atomic Mapping of Domains and Interfacial Structures in Ferroelectric Films 马秀良 Xiuliang Ma |
15:10-15:40 |
Lecture 4 Understanding Mechanically Induced Domain Switching in Ferroelectric Thin Films Guided by Phase-Field Modeling 陈龙庆 Long-Qing Chen |
|
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15:40-16:10 |
—— Poster Session and Coffee Break —— First Floor of Yifu Hall |
Keynote session II.A (16:10 -18:30) Transport Behaviors Main Classroom of Yifu Hall| Chair: Yue Zheng, Jiyan Dai |
|
16:10-16:30 |
Topological Structures as Nanoscale Functional Elements J. Seidel |
16:30-16:50 |
Charge Compensation and Wall Current Enhancement in BiFeO3 Epitaxial Thin Films Anquan Jiang |
16:50-17:10 |
Strain Modulation to Ferroelectric Tunnel Junction Jiyan Dai |
17:10-17:30 |
Ferroelectric Synapse for Neuromorphic Computing Chungang Duan |
17:30-17:50 |
Conductive Behavior of Ferroelectric Domain Walls Xiaomei Lv |
17:50-18:10 |
Novel Conductive Properties in Ferroelectric Topological Domains Xingsen Gao |
18:10-18:30 |
Measuring and Modulating the Electron Transport in Single Molecular Junction Yue Zheng |
Keynote session II.B (16:10 -18:30) Functional Devices Changkong Classroom | Chair: Liangliang Li, Yaojin Wang |
|
16:10-16:30 |
Self Powered Smart Sensing System Haixia Zhang |
16:30-16:50 |
The Self-Powered Nanosystem Based on Dielectric Elastomer and Triboelectric nanogenerator Xiangyu Chen |
16:50-17:10 |
Transparent and Flexible All-Inorganic Ferroelectric Nonvolatile Memories Guoliang Yuan |
17:10-17:30 |
Non-Volatile Memory Based on Ferroelectric-Gating Few-Layer Photoelectric Black Phosphorus Semiconductor Yaojin Wang |
17:30-17:50 |
cAFM Device Concepts in SrTiO3 Based Electron Systems Guanglei Cheng |
17:50-18:10 |
Understand the Energy Band Alignment in Thin-Film Solar Cells Qi Chen |
18:10-18:30 |
Micro-Thermoelectric Power Generators with Cross-Plane and In-Plane Configurations Liangliang Li |
18:45-20:30 |
—— Banquet —— Dining Room of Yuyuan Hotel |
December 16th Plenary Session III and Poster Award (08:00 -10:10) Main Classroom of Yifu Hall | Chair: Weiqiu Chen |
|
08:00-08:30 |
Lecture 1 On Electron Transfer Mechanism in Contact-Electrification Effect 王中林Zhong-Lin Wang |
08:30-09:00 |
Lecture 2 Structural Superlubricity: Challenges in Crossing Atomic to Macroscopic Scale 郑泉水 Quanshui Zheng |
09:00-09:30 |
Lecture 3 Electromechanical Behavior of Ionic Polymer Metal Composite Modified by BaTiO3 熊克 Ke Xiong |
09:30-10:00 |
Lecture 4 Ferroelectric Domain Structure in Bulk BiFeO3 Crystals Sang-Wook Cheong |
10:00-10:10 |
Poster Award Ceremony |
10:10-10:20 |
——Coffee Break —— First Floor of Yifu Hall |
Keynote session III.A (10:20 – 12:13) Atomic Imaging Main Classroom of Yifu Hall | Chair: Jiaqing He, Peng Gao |
|
10:20-10:40 |
Flexoelectricity of SrTiO3 Dislocations Peng Gao |
10:40-11:00 |
Structure and Electronic Structure of Functional Materials under Symmetric Breaking Lin Gu |
11:00-11:20 |
Nanoscale Susceptibilities in Ferroelectric Thin Films: Insights from Multidimensional Spectroscopy and Machine Learning Josh Agar |
11:20-11:40 |
Advanced Electron Microscopy for Thermoelectric Materials Jiaqing He |
11:40-12:00 |
Characterization of Elastic Modulus of ALD Thin Films by In-Situ SEM-SPM Yuefei Zhang |
12:00-12:13 |
Photo Induce Ferroic Domain Alteration and Ionic Migration in Organometal Perovskite Jinjin Zhao |
Keynote session III.B (10:20 – 12:13) 2D Systems Changkong Classroom | Chair: Huarong Zeng, Xueyun Wang |
|
10:20-10:40 |
Freestanding Crystalline Monolayers of Oxide Perovskites Yuefeng Nie |
10:40-11:00 |
Ferroelectric Domain in CuInP2S6 Xueyun Wang |
11:00-11:20 |
Interfacial Strain Engineering of WS2 and MoS2 Films Investigated by Advanced Atomic Force Microscopy Zhihai Cheng |
11:20-11:40 |
Advanced Atomic Force Microscopy Tailoring and Characterizing of Two Dimensional Nanosheets Huarong Zeng |
11:40-12:00 |
Measuring the Local Mobility of Graphene on Semiconductors Haijian Zhong |
12:00-12:13 |
Adhesions of liquids on graphite Cangyu Qu |
12:13-13:30 |
—— Lunch Break —— Third Floor of First Canteen |
Keynote session IV.A (13:30 – 15:50) Multiferroics and Magnetism Main Classroom of Yifu Hall | Chair: Zuhuang Chen, Ming Liu |
|
13:30-13:50 |
DFT Prediction of Low Dimensional Ferroelectrics Shuai Dong |
13:50-14:10 |
Low Voltage of Interfacial Magnetism in Magnetic Multilayers Ming Liu |
14:10-14:30 |
Ferroelectrically Tunable Magnetic Skyrmions in Ultrathin Oxide Heterostructures Lingfei Wang |
14:30-14:50 |
Scanning Nitrogen-Vacancy Center Microscopy for Nanoscale Magnetic Imaging Pengfei Wang |
14:50-15:10 |
Electric Field Controlled Spintronics in Multiferroic Heterostructures Yuewei Yin |
15:10-15:30 |
The Emerging Magnetism in Low Dimensional Transition Metal Oxides Xiaofang Zhai |
15:30-15:50 |
Domain Structure and Magnetism in Multiferroic BiFeO3 Thin Films–Redux Zuhuang Chen |
Keynote session IV.B (13:30 – 15:49) Theory and Computation Changkong Classroom | Chair: Houbing Huang, Jiawang Hong |
|
13:30-13:50 |
Three-Dimensional Contact Analyses with Multi-Field Couplings Weiqiu Chen |
13:50-14:10 |
Mechanical Control of Magnetic Order: From Phase Transition to Skyrmions Jie Wang |
14:10-14:30 |
Beyond Piezoelectricity: Flexoelectricity and Its Effect on the Nanostructures Jiawang Hong |
14:30-14:50 |
Phase-Field Modeling of Electric-Field-Control Multicaloric Effects Houbing Huang |
14:50-15:10 |
Isolated Design of Three-Dimensional Origami Structures Induced by Buckling Yan Shi |
15:10-15:23 |
Piezotronic Effect in a Composite Fiber of Piezoelectric Dielectrics and Nonpiezoelectric Semiconductors Chunli Zhang |
15:23-15:36 |
Atomic Scale Study of the Anti-Vortex Domain Structure in Polycrystalline Ferroelectric Xiaobao Tian |
15:36-15:49 |
Quantitatively Analyzing the Nanoscale Electromechanical Responses in Piezoelectric Medium via Pieoresponse Force Microscopy Kai Pan |
15:49-16:10 |
——Coffee Break —— First Floor of Yifu Hall |
Keynote Session V.A (16:10 – 18:16) Electrochemical Couplings Main Classroom of Yifu Hall | Chair: Kaiyang Zeng, Jinxing Zhang |
|
16:10-16:30 |
A Protonated Brownmillerite Electrolyte for Superior Low-Temperature Proton Conductivity Pu Yu |
16:30-16:50 |
Physics and Chemistry on the Polar Surface of Ferroelectrics Jinxing Zhang |
16:50-17:10 |
Electromechanical Response and Hysteresis in Piezoresponse Force and Electrochemical Strain Microscopy – Quantitative Interferometric Measurements and Long-range, Non-localized Hysteretic Forces Roger Proksch |
17:10-17:30 |
Electrode/Ionic Liquid Interfaces: A Combined Study Using AFM Force Curve and Electrochemistry Jiawei Yan |
17:30-17:50 |
Applying of SPM-Based Techniques to Characterize Functional Properties of Oxide Materials Kaiyang Zeng |
17:50-18:03 |
Investigation on Surface Charge on Ferroelectric Films by Scanning Probe Microscopy Ni Zhong |
18:03-18:16 |
Room-Temperature Multiferroic New System of Hexagonal Lu1-xInxFeO3 Juan Liu |
Keynote session V.B (16:10 – 18:16) Functional Probes Changkong Classroom | Chair: Min Zeng, Xiaoyan Liu |
|
16:10-16:30 |
Photoinduced Charge Separation at Plasmonic Au Nanoplate/Ferroelectric Interface Xiaoyan Liu |
16:30-16:50 |
Confinement and Filler Induced Microstructure and Phase Change in PVDF Based Thin Films for Dielectric and Piezoelectric Applications Dong Guo |
16:50-17:10 |
Ferroelectric Domains of Epitaxial Hexagonal Manganite Films Min Zeng |
17:10-17:30 |
SPM-Based Studies of Optical Illumination Induced Effects in Perovskites Tao Li |
17:30-17:50 |
Deterministic, Reversible and Nonvolatile Low Voltage Writing of Magnetic Domains in Epitaxial BaTiO3/Fe3O4 Heterostructure Gaokuo Zhong, Jiangyu Li |
17:50-18:03 |
Nonvolatile Modulation of Electronic Properties of Oxide and Non-Oxide Semiconductor Thin Films Grown on Ferroelectric Single Crystals Renkui Zheng |
18:03-18:16 |
Atomic Force Microscopy for Non-Volatile Photonic Memory and Artificial Synapse Su-ting Han |
18:30-19:30 |
——Dinner—— Dining Room of Yuyuan Hotel |
P 1: |
Environmental and Biological Impact of Room Temperature Ionic Liquids Interacting with Model Cell Membranes M. Galluzzi |
P 2: |
Extensive AFM Study on Organo-Metal Halide Perovskite Thin-Filmsin Solar Cell T. Leonhard |
P 3: |
Room Temperature Multiferroic Properties of Electrospun Gallium Ferrite Nanofibers Feng An |
P 4: |
Nano-Characterization of Evolutions in the Morphology and Mechanical Properties of Electrode Materials by the Inverted Atomic Force Microscopy Operating in Liquid Zhuanfang Bi |
P 5: |
Role of Intermediate Phase to the High Piezoelectric Properties in the [001]-Oriented Pb(Mg1/3Nb2/3)O3-x%PbTiO3 Single Crystals: Direct Observation by Piezoresponse Force Microscopy Jihong Bian |
P 6: |
A New Approach to Get the Molecular Interaction of Protein by AFM Experiment: Quantification, Regulation and Application Yihui Dong |
P 7: |
Discontinuous Phase Transition for Mc-O Phase in 0.66Pb(Mg1/3Nb2/3)O3 -0.34PbTiO3(PMN-34PT) Jinhui Fan |
P 8: |
Thickness-Dependent Evolution of Piezoresponses and Stripe 90° Domains in (101)-Oriented Ferroelectric PbTiO3 Thin Films Yanpeng Feng |
P 9: |
Probing of Local Mechanical Electrochemistry Coupling of Na-Ion Battery by Multi-Mode Scanning Probe Microscopy Techniques Bi Fu |
P 10: |
Single-Crystalline Freestanding PbTiO3 Thin Films by Molecular Beam Epitaxy Lu Han |
P 11: |
Freestanding Crystalline Monolayers of Oxide Perovskites Dianxiang Ji |
P 12: |
Ferroic Domains Regulate Photocurrent in Organometal Halid Perovskite Films Chunmei Jia |
P 13: |
Resolving Fine Electromechanical Structure of Collagen Fibrils via Sequential Excitation Piezoresponse Force Microscopy Peng Jiang |
P 14: |
Hydrothermal Growth and Piezoelectric Response of Li,Ta-Doped (K,Na)NbO3 Nanorods Lei Jiang |
P 15: |
Non-Equilibrium Microstructure of Li1.4Al0.4Ti1.6(PO4)3 Superionic Conductor by Spark Plasma Sintering for Enhanced Ionic Conductivity Hongrun Jin |
P 16: |
Quantitative Amplitude-Modulation Scanning Kelvin Probe Microscopy by Cantilever Dynamics Optimization Junqi Lai |
P 17: |
Resolving the Local Electrochemistry of Lithium-Ion Battery Electrode Materials at Nanoscale Aolin Li |
P 18: |
Influence of Structural Evolution on Electrocaloric Effect in Bi0.5Na0.5TiO3-SrTiO3 Ferroelectric Ceramics Feng Li |
P 19: |
Temperature Dependent Phase Transition of Sol-Gel Synthesized (1-x)(Bi0.5Na0.5)TiO3-xSrTiO3 Thin Films Xianying Li |
P 20: |
Elastic Properties of Suspended Indium Selenide (InSe) Yuhao Li |
P 21: |
Detecting the Thickness-Dependent Surface Potential of 2D Layered α-In2Se3 by Kelvin Probe Force Microscopy Zhi Li |
P 22: |
Nanoscale Ring-Shaped Conduction Channels with Memristive Behavior in BiFeO3 Nanodots Zhongwen Li |
P 23: |
Twist Angle-Dependent Conductivities Across MoS2/Graphene Heterojunctions. Mengzhou Liao |
P 24: |
Direct Fabrication of Graphite-Mica Heterojunction and in Situ Control of Their Relative Orientation Bingtong Liu |
P 25: |
Finite Element Modeling and Quantitative Measurement Using Smim to Characterise Low K Dielectric Films Bo Liu |
P 26: |
Epitaxial Growth of BTFM-CTO Thin Film by Sol-Gel Method Cong Liu |
P 27: |
General Resolution Enhancement Method in Atomic Force Microscopy (AFM) Using Deep Learning Yue Liu |
P 28: |
Vertical Cavity Surface Emitting Lasers with Micro-Pattern Structure Yun Liu |
P 29: |
Visible Light-Induced Surface Charge on BTO-Polymer Hybrid and Its Enhancement to Triboelectricity Wangheng Lu |
P 30: |
Eliminating the Effects of Piezoelectricity in the Characterization of Flexoelectric Coefficient Yingzhuo Lun |
P 31: |
Measuring Light Induced Dynamic Surface Charge Redistribution of Pyroelectric Nano Generators Utilizing the Atomic force Microscope Xin Lv |
P 32: |
Controllable Conductive Readout in Self-Assembled, Topologically Confined Ferroelectric Domain Walls Ji Ma |
P 33: |
Nonlinear Dynamics Analysis of Piezoelectric Materials in Contact-Mode Piezoresponse Force Microscopy Experiment Wenjie Ming |
P 34: |
Domain Growth Dynamics in PMN-PT Ferroelectric Thin Films Jiayu Pan |
P 35: |
Fracture Analyses of Soft Materials with Hard Inclusion Pengyu Pei |
P 36: |
Eliminating Delamination of Graphite Sliding on Diamond-Like Carbon Yujie Gongyang |
P 37: |
Direct Measurements of Electrocaloric Effect Based on Scanning Thermal Microscopy Dongliang Shan |
P 38: |
Robust Microscale Superlubricity in Single Crystalline Layered Material Heterojunctions: The Case of Graphite/H-BN Interfaces Yiming Song |
P 39: |
Ex-situ Investigation of Solid Electrolyte Using Scanning Probe Based Techiniques Qiaomei Sun |
P 40: |
Probing the Nanoscale Mechanical and Functional Properties of Osteogenesis Imperfecta Mouse Models by Scanning Probe Microscopy Techniques Yao Sun |
P 41: |
Manipulating Conductive Domain Walls in Confined Ferroelectric Nanoislands Guo Tian |
P 42: |
Self-Assembled Au-Nb: SrTiO3 Nanocomposite Thin Film for Photochemical Water Splitting Hongliang Wang |
P 43: |
Nano/Atomic Scale Control of Multiple Order Parameters in Correlated Functional Materials Jing Wang |
P 44: |
Comparison of Piezoelectricity of KNLNS0.07-BZ Thin Films on Different Substrates Quantitatively at the Nanoscale via Novel PFM Enabled by Machine Learning Lei Wang |
P 45: |
Dielectric and Piezoelectric Properties of BiNiO3 Doped K0.5Na0.5NbO3-Na0.5Bi0.5ZrO3 Lead-Free Ceramics Ting Wang |
P 46: |
Enhanced Electrocaloric Effect Near Polymorphic Phase Boundary in Lead-FreePotassium Sodium Niobate Ceramics Xiangjian Wang |
P 47: |
Outstanding Piezoelectric Response and Energy Harvesting Performance of Lead-Free (K,Na)NbO3 Nanorod Arrays Zhao Wang |
P 48: |
Nanoscale Characterization of Solid Electrolyte by Scanning Probe Microscopy Techniques Zhongting Wang |
P 49: |
Crystallization and Electrical Properties of PVDF-Based Binary and Ternary Composites Jingshu Xu |
P 50: |
Piezoelectricity and Ferroelectricity in Hexagonal Alpha-In2Se3 Down to the Monolayer Limit Fei Xue |
P 51: |
Directional Emission Micro-Cavity Structure Lasers and Their Array Device Changling Yan |
P 52: |
The Effects of Maxwell Stress on the Piezoelectric Materials with Two Collinear Cracks Guang Yang |
P 53: |
Electrically Driven Reversible Magnetic Rotation in Nanoscale Multiferroic Heterostructures Junxiang Yao |
P 54: |
Giant Strain in Bi0.5Na0.5TiO3-Based Relaxor-Ferroelectrics by Sites and Composition Engineering Jie Yin |
P 55: |
Effects of Defects and Environments on Local Electrochemical Process of Yttria-Stabilized Zirconia (YSZ) Thin Film Bingxue Yu |
P 56: |
Quadratic Electromechanical Strain in Silicon Investigated by Scanning Probe Microscopy Junxi Yu |
P 57: |
Preparation and Structure Characterization of Freestanding BiFeO3 Films Yipeng Zang |
P 58: |
Hierarchic Polar Topological Domain in PbTiO3 Nanoislands Luyong Zhang |
P 59: |
Atomic Scale Insights into Structure Instability and Decomposition Pathway of Methylammonium Lead Iodide Perovskite Ying Zhang |
P 60: |
Practical High Strain with Superior Temperature Stability in Lead-Free Piezoceramics Through Domain Engineering Chunlin Zhao |
P 61: |
Nanoscale Domain Structures and Local Property Characterization of Multiferroic Materials via Scanning Probe Microscopy Kunyu Zhao |
P 62: |
Coherent Thermoelectric Power from Graphene Quantum Dots Mali Zhao |
P 63: |
Manipulation of Conductive Ferroelectric Domain Walls Dongfeng Zheng |
P 64: |
Phase Structural Engineering to Improve In-Situ Temperature Stability of D33 in Potassium Sodium Niobate Ceramics for Ultrasonic Ting Zhen |
P 65: |
Thickness-Dependent Phase Transition in Lead-Free Bi0.5Na0.5TiO3-2% BaTiO3 Epitaxial Film Zhen Zhou |
P 66: |
Measuring Elasticity of Multiferroic Composite Nanofibers with Contact Resonance AFM via Local and Global Excitation Qingfeng Zhu |
P 67: |
Effect of Crystal Orientation on Piezoelectric Response and Domain State Evolution of BaTiO3 Thin Films Zhe Zhu |
Nanjing University of Aeronautics and Astronautics
Nanjing University of Aeronautics and Astronautics (NUAA) is one of China’s premier learning and research institutions which now develops into a comprehensive university especially featured with Aerospace Engineering. Ever since it was established in 1952, we have strived to conduct world-level research and education system. 66 years’ history witnesses its unremitting efforts and remarkable achievements.
Academia and education at NUAA represent strong capacity among all the universities in China. It has acquired national status through the quality of its excellence research work, especially in the areas of Aerospace Engineering, Mechanics, Electromechanics, Economy and Management, etc.
Our university’s laboratories are a constant source of new ideas, especially in the fields of Aircraft Design, Dynamics, Mechanics, Manufacturing, Automation and Unconventional Machining, etc. Through the diverse research and teaching activities, we are striving to provide the highest quality of educational experience for students to meet the current needs of society, endowing them with a passport to the professional world and cultivating them into future pioneers in the fields of science and technology.
State Key Laboratory of Mechanics and
Control of Mechanical Structures
The State Key Laboratory of Mechanics and Control of Mechanical Structures (SKLMCMS) was established in 2011. SKLMCMS is one of the most representative academic research institutions of China in the field of Aerospace Structural Mechanics and Control. The Laboratory is recognized as the leader in the fields of aircraft structural dynamics and control in China. Its smart structures and structronics research group is among the leading research groups in the world. It is also one of the pioneer institutes in the research of aircraft structural strength. SKLMCMS has initialized many new research fields in China, such as the Aviation Smart Materials and Structures, Vibration and Precision Drive Technologies, Nonlinear Dynamics and Control, and Micro-Nano Mechanics.
The research areas of SKLMCMS include structural dynamics and control, strength of mechanical structures, vibration utilization and precision drive, micro-nano mechanics as well as smart materials and structures. inspired by the severe and demanding operational environments for high performance aircraft and technical challenges in newly emerged materials, structures and processes, especially the trending of integrations among new materials, new structures and multiple functions, the Mission of SKLMCMS is devoted to develop innovative theories and break technical bottlenecks in aerospace sciences and technologies related to the fields of structural dynamics and control, strength of light structures and smart structure systems in order to support national priorities, and promote industrial progresses.
1. CONGRESS MAPS
In AFM2 2018, most constructions are located inside the Ming Palace Campus of Nanjing University of Aeronautics and Astronautics (南京航空航天大学明故宫校区):
Yifu Hall (逸夫科学馆, Main Venue of AFM2 2018, including the conference lecture rooms and the registration place on December 15-16, 2018)
Yuyuan Hotel (御苑宾馆, the registration place on December 14, 2018)
Grand Metropark Hotel, Nanjing (南京维景国际大酒店)
Ming Palace Station (明故宫地铁站)
Taoli Yuan Restaurant (桃李苑)
Main Venue of AFM2 2018
2. CONGRESS TRAFFIC
The Yuyuan Hotel and the Grand Metropark Hotel, Nanjing are very near to each other and located near to the metro station “Ming Palace Station” (明故宫站).
1. From Nanjing Lukou International Airport (南京禄口国际机场) to the Yuyuan Hotel and the Grand Metropark Hotel, Nanjing:
By metro: ~85 minutes, 7 RMB: First, take No. S1 metro from “Lukou Airport Station”(禄口机场站) to “Nanjing South Station”(南京南站). Then, transfer to No. 1 metro and take it to “Xinjiekou Station”(新街口站). Transfer again to No. 2 metro and take it to “Ming Palace Station” (明故宫站). Last, walk straight to the south for about 550 m to the Yuyuan Hotel (御苑宾馆), or walk straight to the east for about 400 m to the Grand Metropark Hotel, Nanjing (南京维景国际大酒店).
By taxi: ~45 km, ~45 minutes, ~140 RMB
2. From Nanjing South Railway Station (南京南站) to the Yuyuan Hotel and the Grand Metropark Hotel, Nanjing:
By metro: ~45 minutes, 3 RMB: First, take No. 1 metro from “Nanjing South Station“ (南京南站) to “Xinjiekou Station”(新街口站). Transfer to No. 2 metro and take it to “Ming Palace Station” (明故宫站). Last, walk straight to the south for about 550 m to the Yuyuan Hotel (御苑宾馆), or walk straight to the east for about 400 m to the Grand Metropark Hotel, Nanjing (南京维景国际大酒店).
By taxi: ~10 km, ~30 minutes, ~30 RMB
3. From Nanjing Railway Station (南京站) to the Yuyuan Hotel and the Grand Metropark Hotel, Nanjing:
By metro: ~35 minutes, 2 RMB: First, take No. 1 metro from “Nanjing Railway Station” (南京站) to “Xinjiekou Station”(新街口站). Transfer to No. 2 metro and take it to “Ming Palace Station” (明故宫站). Last, walk straight to the south for about 550 m to the Yuyuan Hotel (御苑宾馆), or walk straight to the east for about 400 m to the Grand Metropark Hotel, Nanjing (南京维景国际大酒店).
By taxi: ~8.5 km, ~20 minutes, ~25 RMB
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