SUP-735 Inductively Coupled Plasma-Mass Spectrometer ICP-MS /MS
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ICP-MS /MS

SUP-735 Inductively Coupled Plasma-Mass Spectrometer ICP-MS /MS

Item No.: YSUP-735-4029
SUP-735 is a space tandem multi-stage quadrupole mass spectrometer equipped with an inductively coupled plasma, ICP-MS /MS or ICP-QQQ.…
Product parameters
Product Name: Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS or ICP-QQQ )
Model Number: SUP-735
Brand: E.P.C
Minimum Order Quantity: 1 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )
Price: The price is determined according to the parameters and quantity of the order.
Supply Ability: 8 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS) per month
Place of Origin: China
INQUIRY
Description
The SUP-735 is a space tandem multi-stage quadrupole mass spectrometer equipped with an inductively coupled plasma generator. Known as ICP-MS /MS or ICP-QQQ. The mass spectrometry analysis process of this instrument: quadrupole mass filter → collision/reaction cell → quadrupole mass filter. The instrument has higher sensitivity and resolution, faster detection speed and better reproducibility. The equipment is suitable for food safety testing, substance analysis, scientific research and third-party testing.
 
Working Principle of Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS )
To understand the working principle of inductively coupled plasma-mass spectrometer, please see the "Principle of Inductively Coupled Plasma-Mass Spectrometer".
 
Structure of SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ) Structure Diagram
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ) Structure Diagram
Description of the Structure of the SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)
① Vertical Ion Plasma Design
(VIP: Vertical Ion Plasma) The innovative vertical torch tube design effectively reduces argon consumption and increases the service life of the torch tube and ion interface. The integrated movement design of the torch tube coil ensures the centering of the torch tube by mechanical means, without software adjustment, which is more reliable.
 
② Stable ICP Ion Source
The new generation of self-excited all-solid-state RF power supply, based on the dual power supply design with precise parameter matching, makes the output power more stable and has a wider range.
 
③ Right Angle Ion Lens
(RIO: Right-angle Ion Opticsl) The 90° off-axis design of the ion transmission system not only ensures efficient ion transmission, but also completely eliminates the interference of neutral particles and improves the signal-to-noise ratio.
 
④ Triple Quadrupole Design
Q1 and Q2 use the same specification of pure molybdenum quadrupole, which can achieve high quality resolution of <0.3amu. The latest FM version of the driver, without manual tuning, one-click to achieve quick calibration of Q1, Q2 quality axis and resolution.
 
⑤ High-speed Dynamic Collision / Reaction Cell
(DFC: Distributed Falls Cell) The patented waterfall gas diffusion and distribution method greatly improves the collision/reaction efficiency. Combined with triple quadrupole technology, it greatly improves the detection ability of susceptible elements of S, P, Si etc.
 
⑥ High Sensitivity Electron Multiplier (Detector)
Proprietary digital/analog dual-mode detector (dynode detector) with over 10 orders of magnitude dynamic range.
 
⑦ Embedded Gas Cylinder Design
The creative 5-way collision reaction gas is built-in, and up to 10 high-precision MFCs can be configured, with multiple selections and quick switching, which is more convenient and flexible to use.
 
Features of SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )
1. Powerful and Stable Sampling System
The Vertical Torch Tube First Created in ICP-MS /MS
For the first time, the vertical torch tube design is introduced in ICP-MS, which greatly reduces the accumulation of salt in the torch tube, prolongs the service life of the torch tube, and solves the analysis problem of high-salt and complex matrix samples. At the same time, argon consumption is greatly reduced, and heat and exhaust gas flows naturally upward into the exhaust system, requiring less cleaning and less downtime.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer3-he vertical torch tube first created in ICP-MS /MS
 
A New Generation of All-solid-state Ion Sources
The unique dual RF power supply (patented) has the fastest impedance matching method, which makes the response speed faster and the anti-interference ability stronger. It has no moving parts and provides a more stable ICP torch. It is small in size and improves the stability of analysis, and can directly inject and analyze highly volatile organics such as 100% ethanol.
Combined with ultra-high matrix direct injection system and organic injection system, it can ensure long-term stable and reliable analysis under any complex matrix.
• Online dilution mode: direct injection and analysis of percent-level samples, which perfectly solves the limitation of ICP-MS in analyzing high content.
• Specially designed for high-salt sample analysis, with superior matrix tolerance, with two modes of high-salt injection and online dilution.
• High-salt tolerance mode: direct injection to analyze high-salt samples with a salt content >10%, improving analysis efficiency.
UP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )4-A new generation of all-solid-state ion sources

Perfect Cold Plasma Mode
The unique self-excited all-solid-state RF source provides a cold flame mode as low as 500w, reduces the ionization of Ar-based ions, improves the signal-to-noise ratio of analyte ions such as 39K+, 40Ca+, and 56Fe+, and the lower limit of element detection is greatly expanded.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )5-Perfect Cold Plasma Mode
 
2. Excellent Structural Design Creates a Mass Spectrometer with Superior Performance
With the matrix-resistant vertical plasma design, with a new generation of self-excited all-solid-state RF power supply, combined with the ultra-high matrix direct injection system, even in the face of soil solutions with complex matrices, the instrument can still be guaranteed the stability for a long time., avoid signal drift caused by the matrix, and ensure the accuracy and reliability of the data.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )6-Excellent structural design creates a mass spectrometer with superior performance

Embedded Gas Cylinder Design
• The shortest gas pipeline design enables rapid gas replacement to meet the needs of high-throughput analysis.
• It can be configured with 5 channels of collision/reaction gas, and supports online arbitrary proportioning to meet the application requirements of various scenarios.
• No need for external air cylinder, saving laboratory space and providing a more friendly experimental environment.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )7-Embedded Gas Cylinder Design

Three Turbomolecular Pumps and Five-stage Vacuum Design
• Shorter vacuuming time improves instrument efficiency.
• Differential vacuum design reduces ion transmission loss.
• Provides higher vacuum, increasing the effectiveness of ion transport.
• Reduce the load of the molecular pump and increase the service life of the turbomolecular pump.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )8-Three turbomolecular pumps and five-stage vacuum design
 
3. Multiple Quadrupoles and Ion Deflection Effectively Eliminate Interference Factors in Detection
Schematic of multiple quadrupoles and ion deflection
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )9-Schematic of multiple quadrupoles and ion deflection
The working principle of the multiple quadrupoles and ion deflection is shown in the figure above. Ions and other particles from the ion source travel from bottom to top through the small hole in the middle of the double cone under the action of the extraction lens. Under the action of the first deflection lens (L1), those ions are turned (deflected) by 90°, going to the left. At this point, the photons and neutral particles, which can only go straight, go up and cannot reach the detector on the left (this way, the photons and neutral particles are separated, preventing them from interfering with the detection). The turned ions and other particles pass through the first quadrupole mass filter (Q1), the collision/reaction cell, the second deflection lens (L1), and the second quadrupole mass filter (Q2), so that polyatomic and other particles that do not need to be detected are eliminated. Make sure that the ions that need to be detected reach the detector. After eliminating various interference factors, the signal-to-noise ratio of SUP-735 ICP- MS / MS is greatly improved, and the sensitivity and detection limit are greatly optimized.
 
Quadrupole mass filters are also called mass analyzers or quality screeners. To understand how the quadrupole mass filter and collision/reaction cell work, please see the "Principle of Inductively Coupled Plasma-Mass Spectrometer".
 
Flexible Multiple Quadrupole Analysis Mode
• TQ mass screening analysis mode: Q1 and Q2 screen the same ion mass
• TQ mass-shift analysis mode: Q1 and Q2 screen different ion masses
• SQ mass analysis mode: Consistent with conventional ICP-MS analysis mode, Q1 does not work, allowing all ions to pass through.
 
Efficient quadrupole mass filter
• The use of a long quadrupole increases the number of ion vibrations and increases the resolution, which can resolve less than 0.3amu.
• Both Q1 and Q2 use the same specification of pure molybdenum quadrupole, which provides extremely high ion mass selectivity and quadrupole stability.
• The ultra-wide band-pass function increases the sensitivity of the instrument by more than 2 times, and easily obtains the detection sensitivity of millions.
• Increase ion transmission efficiency and reduce contamination of Q1 and Q2 quadrupoles. The quadrupole requires no cleaning and maintenance.
 
Ion deflection unit
• With dedicated neutral particle receivers
• Lifetime maintenance free ion lens
 
4. The approachable and easy-to-operate Element V workstation
Versatile Element V Workstation
• Element V workstation in both Chinese and English supports unified management and control of multiple devices.
• Provide specialized solutions according to different industry applications.
• Rich and open external interfaces to support various equipment combination requirements.
• Powerful high-throughput data batch analysis software supports offline data processing and improves data processing efficiency.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )10-Versatile Element V Workstation

Simple to use
• Visual operation monitoring, self-checking when the instrument is started. Instrument health index at a glance.
• One-key automatic tuning and quality calibration, reducing the difficulty for users to use.
• Dynamically adjust the injection time and flush time to meet the QC function requirements of the EPA method.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )11-Simple to use

5. The SUP-735 ICP-MS / MS complies with regulations
• With three-level management authority and audit trail function
• Comply with GMP regulations and 3Q certification
• 21 CFR Part 11
SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )12-complies with regulations

SUP-735 Inductively Coupled Plasma-Mass Spectrometer ( ICP-MS /MS )-13-3

UP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)14

6. Examples of Trace Element Analysis Solutions
The SUP-735 ICP-MS /MS has extremely strong interference removal capabilities
Traditional ICP-MS matching He kinetic energy discrimination effect (KED) can effectively eliminate polyatomic interferences in high matrix samples. However, it cannot eliminate mass spectral interferences such as isobaric and double charges, and has a limited application range.
In the reaction mode of traditional ICP-MS, a large number of unknown ions enter the collision/reaction cell and react together with the target ions (the ions that need to be tested), producing many by-product ions, forming new interferences, and causing deviations in the analysis results.
In the reaction mode of traditional ICP-MS, although 59Co 16O+, 150Nd++, 150Sm++ and other interferences can be eliminated, the interference of 91Zr+ cannot be eliminated, resulting in false positive results.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)15-The SUP-735 ICP-MS /MS has extremely strong interference removal capabilities

In the new generation SUP-735 ICP-MS / MS mode, a quadrupole filter (Q1) is added before the collision/reaction cell. Q1 only allows the target ions to enter the collision/reaction cell, completely eliminating other interferences, greatly improving the sensitivity and Signal-to-noise ratio, perfectly applied in various fields.
In the new generation of multiple quadrupole ICP-MS / MS mass transfer mode, Q1 only allows ions with a mass-to-charge ratio of 75 such as 59Co 16O+, 150Nd++, 150Sm++ to pass through into the collision/reaction cell, where 75As+ is converted into 75As 16O+. Q2 analyzes 75As 16O+ with a mass of 91, and the 91Zr+ interference has been eliminated at Q1 and will not interfere with the analysis results.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)16-

SUP-735 ICP-MS / MS Analysis of Ultratrace Sulfur in High Purity Reagents
The analysis of ultra-trace sulfur is quite difficult. During spectral analysis, the characteristic spectrum of sulfur (S) element belongs to the ultraviolet region, and the sensitivity is poor, resulting in a high detection limit, which cannot meet the analysis requirements of ultra-trace sulfur in high-purity reagents. When using conventional ICP-MS, the spectrum at a mass-to-charge ratio of 48 is shown below. Sulfur has a lower degree of ionization, resulting in a lower analytical signal. We had to choose 32S+ with higher abundance as the target ion, and 32S+ was seriously interfered by 32O2+. The 32S+ was converted to 32S 16O+ by mass transfer for analysis. At the same time of mass transfer, new interferences such as 48Ti+, 48Ca+, 12C 18O2+, etc. will be encountered, and the accurate analysis of ultra-trace sulfur cannot be achieved.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)17-Analysis of Ultratrace Sulfur in High Purity Reagents

The SUP-735 ICP-MS / MS has an additional quadrupole mass filter (Q1) before the collision/reaction cell, which does not let impurity ions pass through. Prevent impurity ions from entering the reaction cell and react with reactant gas or target ions to form new non-target ions and form new interference.
In ICP-MS / MS mode, all interferences such as 48Ti+, 48Ca+ , 12C 18O2+ , 12C+ will be eliminated first in Q1, resulting in accurate analytical results. The mass spectrum of 32S 16O+ is shown in the figure below. All interference peaks are eliminated, and there is no interference from overlapping peaks, indicating that ICP-MS / MS effectively solves the problem of ultra-trace sulfur analysis in high-purity reagents, and achieves ppt and sub- Accurate analysis of elemental sulfur at ppt level.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)18

SUP-735 ICP-MS /MS Analysis of Trace Manganese Elements in Iron Matrix
For trace Mn elemental analysis under Fe matrix, since Mn does not have isotopes, only 55Mn+ can be selected as the target ion analysis. In traditional ICP-MS reaction mode, the spectrum at a mass-to-charge ratio of 55 is shown below. 55Mn+ is seriously interfered by the tail peaks of adjacent mass numbers 54Fe+ and 56Fe+, which cannot effectively remove the interference caused by the adjacent component peaks in the analysis of manganese element, resulting in a much higher analysis result.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)18-Analysis of Trace Manganese Elements in Iron Matrix

The SUP-735 ICP-MS /MS is equipped with 90° deflection (off-axis) and Q1, which reduces the probability of collision of ions during transmission. The 55Mn+ mass spectrum is shown below. Adjacent component peaks are separated without interference from overlapping peaks and adjacent tailing peaks. It shows that the excellent abundance sensitivity of ICP-MS /MS can effectively solve the analysis problem of trace manganese in iron matrix.
Structure of SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)20-Analysis of Trace Manganese Elements in Iron Matrix

7. Rich Accessory System
Smart Sample Dilution System
• Automatically generate standard curve without manual operation.
• Automatic sample dilution, up to 200-fold online dilution.
Structure of SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)21-Smart Sample Dilution System

Rapid Sampling System
• Use a powered pump for fast sample extraction.
• Analysis and cleaning are performed at the same time, saving pipeline cleaning time.
 
High Performance Liquid Chromatography-ICP-MS Combined System
The combination of high performance liquid chromatography and ICP-MS technology can realize the speciation and valence analysis of mercury, tin, lead, arsenic, and chromium in the sample.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)22-High Performance Liquid Chromatography-ICP-MS Combined System
 
Solid Direct Sampling-ICP-MS Hybrid System
Based on the combination of graphite furnace electrothermal evaporation technology and ICP-MS technology, solid samples can be directly injected and analyzed without digestion, which greatly improves the analysis efficiency and is a typical green analysis technology.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)23-Solid Direct Sampling-ICP-MS Hybrid System
 
Fully Automatic Super Microwave-ICP-MS Combined System
The combination of super microwave and ICP-MS technology forms a complete set of automatic heavy metal analysis system, which can realize the automatic processing of the whole process of sample pretreatment, analysis and reporting.
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)24-Fully Automatic Super Microwave-ICP-MS Combined System

Technical Parameters of SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS)
The technical parameters of SUP-735 ICP-MS /MS should be determined according to the following conditions of the user:
• Field of application of the instrument
• Testing substance species and automatic sampling system
• Determination of detection and quantification limits
• The technical indicators of SUP-735 ICP-MS /MS can meet or exceed the standards of GB 5009.268----2016.
We can provide solutions of detection technology for users' reference.
 
Application example of SUP-735 Inductively Coupled Plasma-Mass Spectrometer
GB 5009.268----2016, National Food Safety Standard, Determination of Multielements in Food, Method 1: Inductively Coupled Plasma Mass Spectrometry (ICP-MS)
SUP-735 Inductively Coupled Plasma-Mass Spectrometer can meet or exceed the quality requirements of GB 5009.268----2016.
 
The Training Base Can Provide Technical Support for the Employees of the Enterprise and Users
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)25-The Training Base Can Provide Technical Support for the Employees of the Enterprise and Users
Our technical support includes long-distance video guidance on the Internet, user training at the company's training base, technical support from our technicians at the user testing site, and technical services from local dealers.

Making Site for the SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS)
SUP-735 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS /MS or ICP-QQQ)26-Making Site
Before you decide to purchase the instrument, we recommend that you come to visit the production workshop and take a look at the precision machining equipment of the instrument. Bring you direct access to the source of production, more real understanding of product performance and ex-factory price. "If the manufacturer is good, you will know when you look at the production site."
 
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Mickey Zkuend