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Overview

How it Works

Features

Publications

FAQ

How do photo-electrochemical mechanisms manifest as nanoscale transformations?

The Hummingbird Scientific Generation V TEM Optical Bulk Liquid-Electrochemistry Sample Holder is the first system capable of replicating true bulk photo-electrochemical behavior inside a transmission electron microscope. Featuring a fiber optic feedthrough, real bulk reference and counter electrodes, and optimized electrochemistry chips, this holder enables quantitative, drift‑free in‑situ imaging of photo-electrochemical processes at the nanoscale without the need for drift correction software. Compatible with TFS/FEI, JEOL, and Hitachi systems, it supports aqueous and organic electrolytes and integrates optional heating capabilities. Every Hummingbird holder is precision‑machined for reproducibility, performance, and ease of use. Scroll down to explore key features and advantages of this holder.

Technical Specs
1405
Total Electrodes
6
Fiber Bandwidth
100 to 2000 nm*
True Reference Electrode
Yes*
True Counter Electrode
Yes*
Electrolytes
Aqueous, Wide range of organics
Spacer Range
100 to 5 μm*
EELS/EDS Compatible
Yes
Heating Capability
Yes
Instrument Type
TEM

Available For:

Built on Engineering Excellence

Engineering CapabilitiesCustom Solutions

Built for Diverse Research Applications

Electrochemistry

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

Cyclic Voltammetry (CV)
Linear Sweep Voltammetry (LSV)
Chronoamperometry (CA)
Chronopotentiometry (CP)
Electrochemical Impedance (EIS)

Catalysis

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

Heterogeneous Catalysis
Structure-Performance Relationship
Catalyst Structural Transformations
Catalyst Chemical Transformations
Catalyst Redox

Thin Films

Nanoparticles

High Impact Publications

Khim Karki, Pawan Kumar, Antoine Verret, Noah Glachman, Daan Hein Alsem, Deep Jariwala, Norman Salmon, Eric Stach. “In situ operando Study of Photoelectrochemistry Using Optical Liquid Cell Microscopy”. Microscopy and Microanalysis (2020)

Abstract

Noah Glachman, Noah Geller, Alexander Shea, V. Antoine Verret, Khim Karki, Julio Rodriquez-Manzo, Norman J. Salmon, Daan Hein Alsem, Deep Jariwala, Eric Stach. “Development of a Method to Characterize Active Sites in Photocatalysis using operando Transmission Electron Microscopy”. Microscopy and Microanalysis (2019)

Abstract
Browse All Publications
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Key Features and Capabilities

In-situ Light Exposure

Observe samples in a light-stimulated microfabricated liquid cell with fiber optic feedthrough.

True Bulk Electrochemistry

Perform in-situ liquid phase electrochemistry matching benchtop performance

Flowing or Static Liquid

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

Add-ons

Enhance your in-situ experiments with advanced add-on functionalities

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How it Works

The Generation V TEM optical bulk liquid-electrochemistry sample holder integrates a sealed microfluidic liquid cell with true bulk reference and counter electrodes positioned off-chip, and a fiber optic feedthrough, enabling accurate photo-electrochemical control within the TEM. Real reference electrodes (e.g., Ag/AgCl) provide stable potentials, while bulk counter electrodes (e.g., Pt) support consistent current flow, eliminating the instability and drift common in on-chip systems.

During operation, electrolyte flows through the liquid cell while electrochemical cycling is performed on the working electrode under direct electron beam observation and light illumination. This architecture decouples photo-electrochemical performance from geometric and material limitations of on-chip microfabricated electrodes, delivering reproducible current–voltage responses with well-defined redox peaks—closely matching bulk electroanalytical behavior while simultaneously enabling high-resolution imaging in liquid.

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