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The series of Biotech Liquid Flow Meters enables easy, continuous, and integrated determination of liquid flow rates. With these devices, flow data is continuously and accurately recorded and stored in a computer application providing full flow control and documentation. The measurement principle of heat dispersion allows for unprecedented time resolution and provides new insights into flow variation and inconsistency. The internal flow cell has a minimal volume and the inline measurement is accomplished without any interference with the liquid or its flow path. Four different models are available for micro flow, analytical HPLC flow, preparative flow, and high volume flow rates. -
The series of Biotech Liquid Flow Meters enables easy, continuous, and integrated determination of liquid flow rates. With these devices, flow data is continuously and accurately recorded and stored in a computer application providing full flow control and documentation. The measurement principle of heat dispersion allows for unprecedented time resolution and provides new insights into flow variation and inconsistency. The internal flow cell has a minimal volume and the inline measurement is accomplished without any interference with the liquid or its flow path. Four different models are available for micro flow, analytical HPLC flow, preparative flow, and high volume flow rates. -
The series of Biotech Liquid Flow Meters enables easy, continuous, and integrated determination of liquid flow rates. With these devices, flow data is continuously and accurately recorded and stored in a computer application providing full flow control and documentation. The measurement principle of heat dispersion allows for unprecedented time resolution and provides new insights into flow variation and inconsistency. The internal flow cell has a minimal volume and the inline measurement is accomplished without any interference with the liquid or its flow path. Four different models are available for micro flow, analytical HPLC flow, preparative flow, and high volume flow rates. -
The series of Biotech Liquid Flow Meters enables easy, continuous, and integrated determination of liquid flow rates. With these devices, flow data is continuously and accurately recorded and stored in a computer application providing full flow control and documentation. The measurement principle of heat dispersion allows for unprecedented time resolution and provides new insights into flow variation and inconsistency. The internal flow cell has a minimal volume and the inline measurement is accomplished without any interference with the liquid or its flow path. Four different models are available for micro flow, analytical HPLC flow, preparative flow, and high volume flow rates. -
The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard. -
The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Biotech Solvent Recycler is a completely stand-alone device with an integrated display to show current input and settings, and control keys to easily set its operational parameters. It is typically externally powered via 5V DC, but can also be powered and programmed via a USB connected computer running a terminal software application. The Biotech Solvent Recycler can reduce the mobile phase in isocratic HPLC for up to 90% by redirecting uncontaminated mobile phase into the container. The level of the input signal and setting parameters are displayed on a well-read four-digit LCD display. Valve position and the current display mode are indicated by LEDs placed next to the display. Instrument functions are operated via a membrane keyboard with six keys. Setting of operating parameters and online device activity tracking can also be performed from a PC using any terminal application. Its analog input accepts unipolar and bipolar signals in ranges of ± 1V or ±100 mV alternatively. Analog-to-digital converter provides data for further processing in embedded microcontroller. TTL (contact closure) input is used for the auto-zero function. This model has a PEEK solvent flow path, but the Biotech Solvent Recycler is also available with wetted material in PTFE. -
The Biotech Solvent Recycler is a completely stand-alone device with an integrated display to show current input and settings, and control keys to easily set its operational parameters. It is typically externally powered via 5V DC, but can also be powered and programmed via a USB connected computer running a terminal software application. The Biotech Solvent Recycler can reduce the mobile phase in isocratic HPLC for up to 90% by redirecting uncontaminated mobile phase into the container. The level of the input signal and setting parameters are displayed on a well-read four-digit LCD display. Valve position and the current display mode are indicated by LEDs placed next to the display. Instrument functions are operated via a membrane keyboard with six keys. Setting of operating parameters and online device activity tracking can also be performed from a PC using any terminal application. Its analog input accepts unipolar and bipolar signals in ranges of ± 1V or ±100 mV alternatively. Analog-to-digital converter provides data for further processing in embedded microcontroller. TTL (contact closure) input is used for the auto-zero function. This model has a PTFE solvent flow path, but the Biotech Solvent Recycler is also available with wetted material in PEEK.
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The SmartSaver™ solvent recycler from Biotech Fluidics saves up to 90% of mobile phase by redirection of the pure solvent to the solvent reservoir during the isocratic HPLC. Can be used with almost all manufacturers equipment and detectors as UV, fluorescens etc. SmartSaver™ brings quite new approach to solvent recycler design. Very compact instrument is powered directly from chromatography data system PC, no power adapter is required. User friendly software is provided to configure the parameters, and to perform on-line monitoring/audit trail. Analog input allows unipolar or bipolar operation within range of ± 1V. TTL/contact closure can be configured as start, auto-zero or valve position control input. This model has a PTFE solvent flow path, but the SmartSaver™ is also available with wetted material in PEEK. -
The new DEGASi® FlatFilm degasser redefines the capabilities of inline degassers. This engineering marvel delivers double the degassing performance per unit volume, at ten times lower flow resistance, while also reducing evaporative solvent loss, relative to traditional tubular degasser designs. In addition, this new inline degasser provides an extremely silent operation with about thirty percent longer life expectancy compared to traditional constructions. It also offers a reduced environmental footprint by requiring only one tenth the amount of perfluoroalkylated (PFAS) polymers within the degassing membrane. The DEGASi® FlatFilm stand-alone inline degasser is suitable for a wide range of analytical and semi-preparative applications involving anything from biocompatible requirements to demanding organic solvent compatibility including hexane. The slim housing, recognized from the popular DEGASi® Plus series, occupies a small bench space (230 x 56 x 107 mm). The nominal flow rate is 6 mL/min per channel, and this degasser is available with 1-6 degassing channels each with a flow path of 500 µL. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. See Solvent Compatibility Chart » -
The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The Mott Micro Gas Spargers are manufactured in durable porous stainless steel. By efficiently creating microbubbles of the gas, these spargers greatly increase contact area of between the liquid and the gas, thereby significantly boosting mass transfer rates and reaction yields or reducing total gas consumption. Available in different lengths, with media porosity grades of 2, 5, 10, or 15 μm, these micro spargers offer the flexibility to generate bubble sizes which are optimal for your specific setup. The sparger tips come with a M5x0.8 thread with O-ring groove, or 10-32 UNF thread as standard.
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The DEGASi® Integration HFIP Semi-Prep degasser is especially designed for hexafluoroisopropanol (HFIP) often used in size-exclusion SEC and GPC applications. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. This degasser is equipped with 1-5 chambers and with the unique stainless-steel stented flow path of 925 μL, it is also suitable for use with all common organic solvents including alkanes like hexane 3-6 mL/min. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Integration HFIP degasser is especially designed for hexafluoroisopropanol (HFIP) often used in size-exclusion SEC and GPC applications. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. This degasser is equipped with 1-5 chambers and with the unique stainless-steel stented flow path of 480 μL, it is also suitable for use with all common organic solvents including alkanes like hexane up to 3 mL/min. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Plus GPC Semi-Prep degasser is designed for straight phase chromatography applications with flow rates 3-6 mL/min. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. This degasser is equipped with 1-5 chambers and with the stainless-steel stented flow path of 925 μL, it is intended for use with all common organic solvents including alkanes like hexane. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Integration Semi-Prep degasser is designed for reversed phase HPLC and ion chromatography applications at flow rates in the range 3-6 mL/min. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. This degasser is equipped with 1-5 chambers with biocompatible flow path of 925 μL for aqueous-organic liquids, but is not compatible with hexane and similar organic solvents. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Plus UltraNano degasser is optimised for ultra-low flow rates of aqueous and organic liquids up to 25 μL/min. The port design is 10-32 Coned for connection of tubing with OD ranging from 1/32” to 1/16”. This degasser is equipped with 1-5 chambers with biocompatible flow path of only 6 μL for aqueous-organic liquids but is not compatible with hexane and similar organic solvents. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Integration Nano degasser is optimised for nano flow rates of aqueous and organic liquids up to 0.1 mL/min. The port design is 10-32 Coned for connection of tubing with OD ranging from 1/32” to 1/16”. This degasser is equipped with 1-5 chambers with biocompatible flow path of 25 μL for aqueous-organic liquids but is not compatible with hexane and similar organic solvents. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Integration Micro degasser is optimised for low flow rates of aqueous and organic liquids up to 0.5 mL/min. The port design is 1/4-28 Flat-Bottom for connection of tubing with OD ranging from 1/16” to 1/8”. This degasser is equipped with 1-5 chambers with biocompatible flow path of 100 μL for aqueous-organic liquids but is not compatible with hexane and similar organic solvents. As with all DEGASi® Integration degassers, there is an output signal for the vacuum level, and you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and three indicator LEDs to show current status. The housing occupies a reduced bench space (261 x 70 x 125 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart » -
The DEGASi® Plus UltraNano degasser is optimised for ultra-low flow rates of aqueous and organic liquids up to 25 μL/min. The port design is 10-32 Coned for connection of tubing with OD ranging from 1/32” to 1/16”. This degasser is equipped with 1-6 chambers with biocompatible flow path of only 6 μL for aqueous-organic liquids but is not compatible with hexane and similar organic solvents. As with all DEGASi® Plus degassers, you can expect very silent and trouble-free operation for many years. It is easy to exchange solvents in the degasser thanks to the low swept volume and efficient design of each channel. The internal patented closed-loop vacuum control assures ultra-stable degassing performance that minimize noise in your high-precision system. The degasser comes with advanced leak and error detection functions and a bicolour indicator LED to show current status. The slim housing occupies a small bench space (230 x 56 x 107 mm) and is easy to access for replacement of parts. The degasser is fully compatible with CE and RoHS directives. See Solvent Compatibility Chart »
