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Replicate Real-World Electrochemical Conditions Inside your TEM

The Hummingbird Scientific TEM Bulk Liquid Electrochemistry Sample Holder is an in-situ TEM platform that enables quantitative in-situ electrochemical characterization inside a transmission electron microscope under true bulk-cell conditions. Dedicated reference and counter electrodes provide accurate potential control for cyclic voltammetry, electrochemical impedance spectroscopy (EIS), battery research, corrosion science, electrocatalysis, electrodeposition, and redox studies, while simultaneously capturing real-time nanoscale imaging of electrochemical processes. Compatible with TFS/FEI, JEOL, and Hitachi systems, it supports aqueous and organic electrolytes and integrates optional heating capabilities.

Built for Diverse Research Applications

Find out what you can study using the TEM Bulk Liquid Electrochemistry sample holder.

Battery Materials

Directly visualize battery cycling, ion transport, dendrite formation, interface evolution, and structural changes.

Electrochemistry

Study electrodeposition, electrocatalysis, corrosion mechanisms, and electrochemical interface evolution.

Catalysis

Directly observe the mechanisms that drive catalyst activity, selectivity, and degradation.

Synthesis

Uncover nucleation and crystal growth mechanisms, quantify growth kinetics, and optimize synthesis conditions.

High Impact Publications

Trusted by researchers worldwide, the Hummingbird Scientific TEM Bulk Liquid Electrochemistry Sample Holder has contributed to 30+ peer-reviewed publications from leading universities, national laboratories, and research institutions worldwide in Nature, Science, ACS Nano, Advanced Functional Materials, and other leading journals.

Raquel Aymerich Armengol, Lau Morten Kaas, Alexander Juul Nielsen, Feng Wu, Alba Bech Larsen, Marika Birkedal Norby, Andrea M. Mingers, Siyuan Zhang, Christian Danvad Damsgaard, Stig Helveg, Jakob Kibsgaard, Peter Christian Kjærgaard Vesborg. “Probing the stability window of electrodeposited MnO2 for the acidic oxygen evolution reaction”. (2025)

Abstract

Antonia E Kotronia, Eric Gautron, Ivan T Lucas, Patricia Abellan. “Towards Controlled Chemical and Electrochemical Reactivity during In Situ Scanning Transmission Electron Microscopy”. Microscopy and Microanalysis (2025)

Abstract

Krishna Kumar, Anna Loiudice, Coline Boulanger, Seyedmohamadjavad Chabok, Raffaella Buonsanti. “Real-Time Monitoring Reveals Stability of Gallium Nanoparticles beyond the Thermodynamic Reduction Potential of Their Oxide Skin under CO2 Reduction Conditions”. Chemistry of Materials (2025)

Abstract
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Built on Engineering Excellence

Hummingbird Scientific designs, machines, assembles, tests, and services its products in-house. Our integrated engineering, machining, microfabrication, and applications teams enable rapid product development, custom modifications, and direct technical support throughout the life of the instrument. This vertically integrated approach allows researchers to adapt experimental platforms to unique scientific requirements while maintaining the performance and reliability required for advanced in-situ microscopy experiments.

The TEM Bulk Liquid Electrochemistry Sample Holder is a direct result of these capabilities, enabling reproducible true bulk electrochemical measurements combined with in-situ nanoscale imaging.

Need something unique? Our engineers can customize existing products or develop entirely new solutions to support specialized experiments and emerging research challenges.

Engineering CapabilitiesCustom Solutions

How it Works/Workflow

The TEM bulk liquid electrochemistry sample holder enables true bulk electrochemistry inside the TEM using dedicated bulk reference (e.g. Ag/AgCl) and counter electrodes (e.g. Pt) positioned off-chip. Unlike on-chip electrode designs, this architecture eliminates drift, instability, and peak shifts while enabling stable potentials, reproducible cyclic voltammetry, and accurate electrochemical control inside the TEM.

During operation, electrolyte flows through the liquid cell while electrochemical cycling is performed under direct electron beam observation. The bulk electrode architecture delivers reproducible current-voltage responses and well-defined redox peaks that closely match bulk electroanalytical behavior, enabling simultaneous electrochemical measurements and nanometer-resolution imaging in liquid cell TEM experiments.

Key Features and Capabilities

Dual-Flow Liquid Mixing

Accelerate discovery with dual-flow liquid mixing for in-situ liquid phase TEM, capturing dynamic reactions with greater control and flexibility

Integrated Liquid Heating

Add temperature-controlled liquid-phase TEM capabilities with homogeneous heating, precise temperature regulation, and near drift-free in-situ imaging

TEM Safety & Seal Verification

Protect your TEM during liquid-cell experiments and streamline setup with rapid high-vacuum seal checking and optical inspection

Optimized for EELS and EDS

Perform correlative spectroscopy and microscopy for detailed in-situ elemental analysis

Multimodal Imaging

Correlate electrochemical and imaging data across TEM, SEM, and X-ray microscopy platforms

True Bulk Electrochemistry

Perform in-situ liquid phase electrochemistry matching benchtop performance

Flexible Liquid Cell Operation

Image samples in continuous-flow or static liquid environments using a sealed microfluidic chip assembly

Software

Spend less time managing equipment and more time generating results. Hummingbird Connect integrates with microscope and laboratory software platforms to simplify experiment setup, streamline workflows, and keep your data organized from acquisition through analysis.

To help you get the most from your liquid-cell holder, Hummingbird Control Software provides intuitive and precise control of closed loop liquid heating. Together, these software solutions enable faster setup, improved reproducibility, and more efficient liquid-phase and electrochemical TEM experiments.

Hummingbird ConnectControl Software

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Featured Video

Operando cyclic voltammetry of Cu plating and stripping reproduces benchtop CV over many cycles

Typical in-situ liquid phase TEM electrochemistry relies on on-chip electrodes, which limits electrochemical fidelity due to constrained geometries, unstable pseudo-reference potentials, and electrode degradation over repeated cycling. The Generation V bulk liquid electrochemistry sample holder overcomes these challenges by incorporating bulk, off-chip reference and counter electrodes, enabling reproducible, benchtop-equivalent electrochemical performance inside the TEM.

The video shows copper plating and stripping from a CuSO₄ solution at the working electrode, directly visualized in real time. The corresponding cyclic voltammetry curve (inset) aligns with the observed dynamics, demonstrating consistent and repeatable bulk-representative electrochemical behavior within the in-situ liquid cell TEM experiment.

Hummingbird Advantage

  • Bulk reference and counter electrodes allow direct extrapolation of observed growth pathways to bulk synthesis process design.
  • Robust off-chip electrodes minimize electrode degradation over many electrochemical cycles.

Reference: HBS internal data obtained in collaboration with Rui Filipe Serra Maia and Eric Stach at the University of Pennsylvania.

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Frequently Asked Questions

What is a bulk electrochemistry TEM sample holder?
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