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New horizons in nanoelectrochemistry

14 - 16 October 2024, Nanjing, China


Introduction

Welcome

Join us for our conference in Nanjing in October 2024. This meeting is for established and early-career scientists, post-graduate students and industrial researchers interested in Nanoelectrochemistry, at any scale, from single-entity to ensemble.
 
On behalf of the organising committee, we look forward to welcoming you to Nanjing, China.

Yi-Tao Long
Nanjing University and Conference Co-Chair

Patrick Unwin
University of Warwick and Conference Co-Chair

Themes

The aim of this meeting is to bring together researchers working on nanoelectrochemistry, whatever the scale.

At this meeting, new advances in nanoelectrochemistry will be discussed, in which individual, transient intermediate and fast charge transfer at the nanointerface can be probed, enabling a comprehensive understanding of electrochemistry at any scale (single entity to ensemble). New theoretical models are also being developed to understand the dynamic and stochastic processes during nanopore electrochemical confinement. The combination of nanoelectrochemistry with other techniques such as scanning probe microscopy or spectroscopy techniques has proven to be a useful tool for single cell imaging, dynamic electrochemical reaction tracking, which facilitates a better understanding of dynamic electron transfer processes and dynamic mass transfer at the nano-interface. New spectroscopic methods/instruments will also be included in the discussion as they relate to improving spectral and spatial resolution beyond the optical diffraction limit, as well as actively control processes at the nanoscale. This meeting will provide opportunities for nanoelectrochemisty researchers to exchange novel ideas face-to-face, further advancing this promising research field.

The meeting will be organised into the following themes:

Confined Nanopore Electrochemistry
The ultimate challenge of modern electroanalytical chemistry is to reach single-molecule level detection with high spatial and temporal resolution. Nanopores are nanoscale-sized channels that address this challenge by providing a confined space that is compatible with single-molecule scale. Confined Nanopore electrochemistry exhibits sensitivity for detecting single entities such as small molecules, nucleic acid polymers, proteins, viruses and nanoparticles using an electrical signal. In this session, attention will focus on the deep understanding of dynamic single-molecule reactions, DNA and protein sequencing, the interaction of single molecules, and so on.

Scanning Electrochemical Probe Microscopy
Scanning Electrochemical Probe Microscopy (SEPM), including Scanning Electrochemical Microscopy (SECM), Scanning Ion Conductance Microscopy (SICM), Scanning Electrochemical Cell Microscopy (SECCM) etc., is a powerful technique that provides chemical characterization, quantification, and spatiotemporal information at the nanoscale. The non-invasive and high-resolution electrochemical imaging capabilities of SEPM make it particularly effective for the study of individual atoms, molecules, nanoparticles and cells into nanoscopic structural entities.

Spectroelectrochemistry and light active processes at the Nanointerface
Electrochemistry can be used to determine concentrations of known compounds or to obtain information concerning reaction kinetics. However, it is less suitable for elucidating unknown reaction intermediates or products. By combining electrochemistry with an optical technique, more qualitative and quantitative information about the processes occurring at the electrodes can be obtained. This session involves a broad variety of promising spectroelectrochemical approaches that allow in situ acquisition of multi-dimensional information of the analyte at a nanointerface. Moreover, light is a controllable energy enabling one to tune reactive properties at the nanoscale.

Systems Nanoelectrochemistry: From single-entity to ensemble
The rapid development of nanoelectrochemistry provided a sensitive method to measure individual entities at the micro-/nano-scale. However, the activity and the micro-environment of individual entities are correlated, which is often related to the interaction between the entities and electrodes or adjacent individual entities. Nanoelectrochemistry is not just measurements of individual entities or groups of entities, but is ultimately used to provide a comprehensive understanding of electrochemical systems and dynamic kinetics at any scale (from single-entity to ensemble). This session will focus on the “Systems Electrochemistry” measurement of a single-entity, entity-entity interactions, entity-nanointerface interaction, and the multi-disciplinary approaches to correlate entity-to-global understanding.
Speakers
Lane Baker (Introductory lecture), Texas A&M University, United States

Lane Baker obtained his BS at Missouri State University (1996) and PhD from Texas A&M University (2001).  He completed postdoctoral appointments in the Surface Nanoscience and Sensor Technology Section of the Naval Research Laboratory (2001), and the University of Florida (2004).  He started as an Assistant Professor in the Department of Chemistry at Indiana University in 2006, with promotion to Associate Professor in 2012, and Professor in 2018.  From 2014-2021 he held a James F. Jackson Chair.  In 2022, Baker moved to Texas A&M University as the Dr. Carl D. McAfee ’90 Chair in Analytical Chemistry. Baker’s research group focuses on nanoscale electrochemistry, especially scanning ion conductance microscopy, applications of nanopipettes and electrochemical aspects of nanoscale electrospray.  Baker is a Fellow of the American Chemical Society and the , and previous awards received include a National Research Council Postdoctoral Associateship, a Starter Grant from the Society of Analytical Chemists of Pittsburgh, a CAREER Award from the National Science Foundation, a Cottrell Scholar’s Award from the Research Corporation for Scientific Advancement, the Young Investigator Award from the Society for Electroanalytical Chemistry, the American Chemical Society Division of Analytical Chemistry Award in Electrochemistry and the Charles N. Reilley Award from the Society of Electroanalytical Chemistry. Baker is presently on the advisory board of multiple journals, including, ACS Measurement Science, Analytical Methods, ChemElectroChem and The Journal of the Electrochemical Society.


Andrew Ewing (Closing remarks), University of Gothenburg, Sweden

Andrew Ewing is Professor of Chemistry and Molecular Biology at the University of Gothenburg, Sweden. He is a Knut and Alice Wallenberg Scholar (2011-2023), an elected member of the Royal Swedish Academy of Sciences, Chemistry Nobel Class (2012) and the Gothenburg Academy of Arts and Sciences (2013). His research focusses on the neuronal process of exocytosis pioneering small-volume chemical measurements at single nerve cells and the contents of individual nanometer vesicles in cells as well as mass spectrometry imaging of cells and organelles.


Mei Shen, University of Illinois Urbana-Champaign, United States

Prof. Mei Shen is an Assistant Professor of Chemistry, Neuroscience Program, The Cancer Center at Illinois, Carl R. Woese Institute for Genomic Biology, and the Beckman Institute at the University of Illinois at Urbana-Champaign. Prof. Shen is also a Chan-Zuckerberg Biohub Chicago Investigator since 2024.

Professor Shen received a Ph.D. from University of Texas at Austin under the direction of Prof. Allen J. Bard in 2011. Before joining the University of Illinois at Urbana-Champaign, Prof. Shen performed postdoctoral research in the laboratory of Prof. Shigeru Amemiya at University of Pittsburgh (2012), where she successfully imaged the ion flux across a single nanopore in an aqueous environment with nano-resolved Scanning Electrochemical Microscopy (SECM). Her current research interests interface between nanoscience, nanoelectrochemistry and neuroscience, specifically involve studying neurotransmission at nanobiological structures, such as single synaptic cleft. Additional interests in her group include probing neurotransmitter dynamics in mice brain with implantable electrodes and fast scan cyclic voltammetry, with application in neurodegeneration and diseases.

Prof. Shen aspires to be a (female) role model to her students. Her distinctions include Award for Excellence in Guiding Undergraduate Research, the NSF CAREER Award, Scialog: Microbiome, Neurobiology and Disease Collaborative Award, ACS Arthur F. Findeis Award for Achievements by a Young Analytical Scientist, CACS Rising Star Award, and Alfred P. Sloan Research Fellow in Chemistry. 


Yi-Lun Ying, Nanjing University, China

Yi-Lun Ying is a Professor of Analytical Chemistry at  Nanjing University. She is received her PhD in analytical chemistry with Prof. Yi-Tao Long after her studying at East China University of Science and Technology (ECUST) and University of Birmingham (UK). Following the postdoctoral research on nanopores and nanoelectrodes, she worked as an associate professor at ECUST since 2016. Yi-Lun was appointed as a professor at State Key Laboratory of Analytical Chemistry for Life Science in Nanjing University and also acted as a co-PI at the Chemistry and Biomedicine Innovation Center in 2019. She has been recognized by several awards and honors, including the L’Oreal-UNESCO International Rising Talents (2016), RSC Analyst Emerging Investigator Lectureship (2020), Young Chemists Awards of Chinese Chemical Society(2020), ACS Rising Star in Measurement Science (2023) and elected as a member of the RSC Analytical Science Community Council (2024).Her main research expertise involves nanopore electrochemistry, and intelligent electrochemical instrumentations for single-molecule chemistry.


Paolo Actis, University of Leeds, United Kingdom

I am an Associate Professor in Bionanotechnology and I strive to empower the next generation of scientists and engineers.

My research involves the development of nanoprobes for single-cell analysis and manipulation with single molecule resolution. I am working with biologists and physicians to understand the deepest difference between healthy cells and diseased cells. After graduating in 2008 with a PhD from the Grenoble Institute of Technology (Fr), I spent 4 years in California working on in biomolecular engineering at NASA Ames (US) and UC Santa Cruz (US) before joining the faculty of medicine at Imperial College London (UK). I then spent two years at Bio Nano Consulting as a Consultant & Project Manager and joined the University of Leeds in 2016.

I love gardening and cooking and I used to play beach volleyball, surf and practice Krav Maga (with very mediocre results).


  • Frédéric Kanoufi Université Paris Cité, CNRS, France
  • Yasufumi Takahashi Nagoya University, Japan
  • Caleb M. Hill University of Wyoming, United States

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Nanjing University

Nanjing University, Nanjing, 210023, China

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