Gas Adsorption Gas Separation

Micro 100

● Available in multiple models to support diverse lab-throughput needs.
● 2 analysis stations with high-vacuum pump and up to 3 pressure sensors per station.
● Simultaneous testing with different adsorbate gases across all active stations.

Product Overview

Introduction

The AMI-Micro 100 Series is a high-precision physisorption instrument designed for the accurate determination of specific surface area and pore size distribution in a wide range of materials. The series is available in three distinct models—A, B, and C—each offering specialized capabilities to accommodate various analytical requirements (refer to the specification table for further details).

The Micro 100 C model is equipped with high-sensitivity 1 torr pressure transducers (with an optional 0.1 torr configuration) and a turbo molecular pump achieving an ultimate pressure of 10⁻⁸ Pa, ensuring exceptional accuracy in the characterization of microporous structures. Furthermore, all analysis stations incorporate in-situ sample preparation, effectively minimizing contamination and enhancing measurement reliability.

Engineered for advanced materials research, the AMI-Micro 100 Series is particularly well-suited for the characterization of microporous materials, including metal-organic frameworks (MOFs), molecular sieves, catalysts, activated carbon, and other porous substances, providing precise and reproducible gas adsorption analysis.

Features

Software

Typical Analysis Result

Specification

Features

Module Design for Minimal Dead Volume

The internal gas path design of the instrument adopts a unique integrated metal module design, which not only reduces the internal dead volume space but also lowers the system leakage rate.

Saturated Vapor Pressure P₀

An independent P₀ pressure transducer is configured at 133 kPa for P₀ value testing, enabling real-time P/P₀ measurement for more accurate and reliable test data. Alternatively, an atmospheric pressure input method can be used to determine P₀.

Independent analysis ports

With independent analysis ports, the system employs a unique vacuum control logic that allows each station to operate without disruption, even when using a single mechanical pump or pump group. This enables simultaneous, independent experiments, meeting diverse adsorbent testing needs while ensuring high efficiency.

High-Precision Micropore Distribution Analysis (Micro 100C)

Utilizes advanced micropore models, including the Horvath-Kawazoe (HK) and Saito-Foley (SF) methods, to accurately determine pore size distribution. Ensures an aperture deviation of less than 0.02 nm, providing precise characterization of microporous materials in gas adsorption studies.

Thermal Stabilization

A core rod in the sample tube reduces dead volume and stabilizes the cold free space coefficient, while an iso-thermal jacket maintains a constant thermal profile along the tube. Additionally, automatic helium correction ensures precise calibration for any powder or particulate material, minimizing temperature- related deviations during analysis.

Customizable Selection of Pressure Transducers

Depending on the model, the AMI-Micro 100 Series offers various quantities and types of pressure transducers. Among them, the Micro 100C, equipped with a 1 Torr transducer (selectable 0.1 Torr), enables a partial pressure (P/P₀) of up to 10⁻⁸ (N₂/77 K) in physical adsorption analysis.

Optimized Manifold Contamination Control

This system features a multi-channel, adjustable, and parallel vacuum design with segmented vacuum control. This setup effectively prevents samples from being drawn up into the analyzer therefore preventing manifold contamination.

Turbo Molecular Pump

A Turbo Molecular pump is included on the Micro 100C. Achieving ultimate pressures of 10⁻⁸ Pa, this system ensures a solid foundation for precis micropore analysis at ultra- low pressures.

Multiple Degassing Stations for Sample Preparation

Equipped with two (2) integrated degassing ports and two (2) in-situ degassing ports. Each port offers independent temperature control from ambient to 400°C (Optional: RT-500°C), ensuring precise sample preparation. In- situ degassing enhances microporous material analysis by providing superior efficiency over ex- situ methods.

Software

PAS Software is an intelligent solution for operation control, data acquisition, calculation, analysis, and report generation on the Windows platform. It communicates with the host via the LAN port and can remotely control multiple instruments simultaneously.

PAS Software adopts a unique intake control method, optimizing pressure in the adsorption and desorption processes through a six-stage setting, which improves testing efficiency.

Each adsorption equilibrium process is dynamically displayed on the test interface. Adsorption characteristics of the sample can be easily understood.

Changes in pressure and temperature inside the manifold can be directly observed in the test interface, providing convenience for sample testing and instrument maintenance. The current state of analyzer can be intuitively understood with the indicator light and event bar.

A clear and concise report setting interface, including the following:

Adsorption and desorption isotherms
Single-/Multipoint BET surface area
Langmuir surface area
STSA-surface area
Pore size distribution according to BJH
T-plot
Dubinin-Radushkevich
Horvath-Kawazoe
Saito-Foley

Typical Analysis Result

The specific surface area test results for iron ore powder are shown in the figure below. As a material with an inherently low specific surface area, the repeatability error in the measurements is only 0.0015 m²/g, demonstrating high testing precision.

Adsorption and Desorption Isotherms of typical macroporous material – silica.

Analysis of pore size distribution of activated carbon materials by NLDFT.

Specification

Optional: 10-8 – 0.998

Specific Model	100A	100B	100C
Analysis Ports	2	2	2
Po Transducer	1	1	1
Analysis Pressure Transducer	1	2	3
Pressure Transducers	1000 Torr	1000 Torr, 10 Torr	1000 Torr, 10 Torr, 1 (0.1) Torr
Pressure Transducer Accuracy and Resolution	Accuracy: 0.05% F.S., Resolution: 0.0005% F.S.	1000 torr – Accuracy: 0.05% F.S., Resolution: 0.0005% F.S. 10 torr/ 1 torr -Accuracy: 0.2% RDG, Resolution: 0.003% F.S	1000 torr – Accuracy: 0.05% F.S., Resolution: 0.0005% F.S. 10 torr/ 1 torr -Accuracy: 0.2% RDG, Resolution: 0.003% F.S. 0.1 torr -Accuracy: 0.5% RDG, Resolution: 0.003% F.S.
Pump	2 mechanical pumps (ultimate vacuum 10‾¹ Pa; minimal 7.5 x 10‾⁴ torr): 1 analysis, 1 degas;	2 mechanical pumps (ultimate vacuum 10‾¹ Pa; minimal 7.5 x 10‾⁴ torr) : 1 analysis, 1 degas.	1 mechanical pumps (ultimate vacuum 10‾¹ Pa; minimal 7.5 x 10‾⁴ torr): 1 analysis, 1 degas 1 turbo molecular pump (ultimate vacuum 10‾⁸ Pa; minimal 7.5 × 10‾¹¹ torr )
P/Po Range	10⁻⁴ – 0.998	10⁻⁸ – 0.998	Standard: 10‾⁷ – 0.998 Optional: 10⁻⁸ – 0.998
Specific Surface Area	≥ 0.01 m²/g, test repeatability: RSD ≤ ±1.0%	N₂: 0.01 m²/g to upper limit; Kr: 0.0005 m²/g to upper limit. Test repeatability: RSD ≤ ±1.0%
Cold Trap	2
Pore Size Measurement Range	0.35-500 nm, test repeatability: ≤ ±0.02 nm (Achieved with CO₂)	0.35-500 nm, test repeatability: ≤ ±0.02 nm (Achieved with CO₂) 0.7 -500 nm, test repeatability: ≤ ±0.02 nm, N₂ Adsorption	0.35-500 nm, test repeatability: ≤±0.02 nm
Pore Volume	≥ 0.0001 cm³/g
Degassing Ports	2 in-situ / 2 ex-situ
Adsorbates	N₂, CO₂, Ar, H₂, O₂, CO, CH₂, etc.	N₂, CO₂, Ar, Kr, H₂, O₂, CO, CH₂, etc
Dimensions & Weight	L 36.0 in (915 mm) × W 22.4 in (570 mm) × H 36.0 in (915 mm), 239 lbs (109 kg)
Power Requirements	110 or 240 VAC, 50/60 Hz, maximum power 300 W

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