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System(s)
Electrofusion and electroporation system ECM 2001+, Cell fusion system
Harvard Apparatus (BTX) (621712)
Electrofusion and electroporation system ECM® 2001+, Cell fusion system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules in...
Electrofusion and electroporation system ECM® 2001+, Cell fusion system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammalian cell lines.
-Large, easy-to-use touchscreen interface
-Preset protocols for common hybridoma, embryo manipulation, and nuclear transfer applications
-Separate electrofusion and electroporation function menus for optimised protocol programming, data organisation, and navigation
-Quick start menus for fast access to the most frequently used electrofusion and electroporation parameters
-User-defined electrofusion protocols: combination of up to 19 AC protocol steps and 1 DC protocol step
-Storage of up to 1000 user-defined protocols
The supplied safety stand connects to the generator to safely deliver high voltage electrical pulses to cuvettes.
The flat electrode generates a divergent field for cell fusion.
Scope of supply: Generator ECM® 2001+, microslide (0.5 mm / 3.2 mm), Meander fusion chamber, flat electrode, electrode adapter, connection cable, safety stand, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack
Square wave (DC)
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 100 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 0.1 ... 10 s
Sine wave (AC)
Voltage: 5 ... 75 V
Frequency: 0.2 ... 2 MHz
Pulse length: 0 ... 99 s
Charging time: <7 s
More Info
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4687936
452045
Harvard Apparatus (BTX)
330
ECM® 2001+ Cell fusion system
330
1
10
305
100 ... 240 V, 50/60 Hz
305 x 330 x 330 mm
51808.82 EU
Electrofusion and electroporation system ECM 2001+, Electroporation system
Harvard Apparatus (BTX) (623910)
Electrofusion and electroporation system ECM® 2001+, Electroporation system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecule...
Electrofusion and electroporation system ECM® 2001+, Electroporation system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammalian cell lines.
-Large, easy-to-use touchscreen interface
-Preset protocols for common hybridoma, embryo manipulation, and nuclear transfer applications
-Separate electrofusion and electroporation function menus for optimised protocol programming, data organisation, and navigation
-Quick start menus for fast access to the most frequently used electrofusion and electroporation parameters
-User-defined electrofusion protocols: combination of up to 19 AC protocol steps and 1 DC protocol step
-Storage of up to 1000 user-defined protocols
The supplied safety stand connects to the generator to safely deliver high voltage electrical pulses to cuvettes.
Scope of supply: Generator ECM® 2001+, safety stand, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack
Square wave (DC)
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 100 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 0.1 ... 10 s
Sine wave (AC)
Voltage: 5 ... 75 V
Frequency: 0.2 ... 2 MHz
Pulse length: 0 ... 99 s
Charging time: <7 s
More Info
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4687937
452046
Harvard Apparatus (BTX)
330
ECM® 2001+ Electroporation system
330
1
10
305
100 ... 240 V, 50/60 Hz
305 x 330 x 330 mm
46985.29 EU
Electrofusion and electroporation system ECM 2001+, Embryo manipulation system
Harvard Apparatus (BTX) (625985)
Electrofusion and electroporation system ECM® 2001+, Embryo manipulation system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other mole...
Electrofusion and electroporation system ECM® 2001+, Embryo manipulation system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammalian cell lines.
-Large, easy-to-use touchscreen interface
-Preset protocols for common hybridoma, embryo manipulation, and nuclear transfer applications
-Separate electrofusion and electroporation function menus for optimised protocol programming, data organisation, and navigation
-Quick start menus for fast access to the most frequently used electrofusion and electroporation parameters
-User-defined electrofusion protocols: combination of up to 19 AC protocol steps and 1 DC protocol step
-Storage of up to 1000 user-defined protocols
The 0.5 and 1.0 mm microslides produce a divergent energy field ideal for efficient embryo fusion. The 3.2 mm microslide provides a homogeneous energy field for high fusion rates of hybridoma cells.
Scope of supply: Generator ECM® 2001+, microslides with round wire electrode (0.5 mm / 1.0 mm), microslide with rectangular wire electrode (3.2 mm), micrograbber adapter cables
Square wave (DC)
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 100 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 0.1 ... 10 s
Sine wave (AC)
Voltage: 5 ... 75 V
Frequency: 0.2 ... 2 MHz
Pulse length: 0 ... 99 s
Charging time: <7 s
More Info
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Width~mm
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4687938
452047
Harvard Apparatus (BTX)
330
ECM® 2001+ Embryo manipulation system
330
1
10
305
100 ... 240 V, 50/60 Hz
305 x 330 x 330 mm
48044.12 EU
Electrofusion and electroporation system ECM 2001+, Generator
Harvard Apparatus (BTX) (620025)
Electrofusion and electroporation system ECM® 2001+, Generator
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammal...
Electrofusion and electroporation system ECM® 2001+, Generator
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammalian cell lines.
-Large, easy-to-use touchscreen interface
-Preset protocols for common hybridoma, embryo manipulation, and nuclear transfer applications
-Separate electrofusion and electroporation function menus for optimised protocol programming, data organisation, and navigation
-Quick start menus for fast access to the most frequently used electrofusion and electroporation parameters
-User-defined electrofusion protocols: combination of up to 19 AC protocol steps and 1 DC protocol step
-Storage of up to 1000 user-defined protocols
Scope of supply: Generator ECM® 2001+, high voltage output cable 1.5 m, adapter set
Square wave (DC)
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 100 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 0.1 ... 10 s
Sine wave (AC)
Voltage: 5 ... 75 V
Frequency: 0.2 ... 2 MHz
Pulse length: 0 ... 99 s
Charging time: <7 s
More Info
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Manuf. PN
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Width~mm
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4687940
452049
Harvard Apparatus (BTX)
330
ECM® 2001+ Generator
330
1
10
305
100 ... 240 V, 50/60 Hz
305 x 330 x 330 mm
45838.24 EU
Electrofusion and electroporation system ECM 2001+, Hybridoma production system
Harvard Apparatus (BTX) (627933)
Electrofusion and electroporation system ECM® 2001+, Hybridoma production system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other mol...
Electrofusion and electroporation system ECM® 2001+, Hybridoma production system
Multifunctional system for fast, efficient cell fusion in hybridoma production, hybrid cell formation, and nuclear transfer, as well as square wave electroporation for transfection of genes and other molecules into mammalian cell lines.
-Large, easy-to-use touchscreen interface
-Preset protocols for common hybridoma, embryo manipulation, and nuclear transfer applications
-Separate electrofusion and electroporation function menus for optimised protocol programming, data organisation, and navigation
-Quick start menus for fast access to the most frequently used electrofusion and electroporation parameters
-User-defined electrofusion protocols: combination of up to 19 AC protocol steps and 1 DC protocol step
-Storage of up to 1000 user-defined protocols
The coaxial chambers have identical electrical characteristics to allow direct scale-up to production once the pulse parameters have been optimised. Coaxial optimisation chamber with transparent bottom allows visualisation of the cell alignment by inverted or regular microscope.
Scope of supply: Generator ECM® 2001+, coaxial optimisation chamber (2 ml), coaxial production chamber (9 ml), adapter set, cytofusion medium C (500 ml)
Square wave (DC)
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 100 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 0.1 ... 10 s
Sine wave (AC)
Voltage: 5 ... 75 V
Frequency: 0.2 ... 2 MHz
Pulse length: 0 ... 99 s
Charging time: <7 s
More Info
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Manuf. PN
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Width~mm
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4687939
452048
Harvard Apparatus (BTX)
330
ECM® 2001+ Hybridoma production system
330
1
10
305
100 ... 240 V, 50/60 Hz
305 x 330 x 330 mm
47382.35 EU
Electroporation System ECM 399
Harvard Apparatus (BTX) (1220)
Electroporation System ECM® 399
The ECM® 399 is an electroporation system for the simple transformation of bacteria and yeast cells. It produces exponential decay waves and is designed to deliver the field strengths and pulse lengths required for transformations. The ECM® 399...
Electroporation System ECM® 399
The ECM® 399 is an electroporation system for the simple transformation of bacteria and yeast cells. It produces exponential decay waves and is designed to deliver the field strengths and pulse lengths required for transformations. The ECM® 399 is ideal for basic transformation in research and academic environments. It is easy to operate, cost effective, compact in size and portable.
Applications: Transformation of bacteria, yeast, fungus.
Scope of supply: Generator ECM® 399 , PEP cuvette holder, Cuvettes 1 mm, 2 mm, 4 mm (10 each) and Cuvette Rack
Specifications
Capacity/Resistance Range:
LV Mode:
HV Mode: 1050 µF / 150 Ohm, fixed
36 µF / 150 Ohm, fixed
Max. Voltage Output: 2500 V (Peak)
Pulse Interval:
Charge Time: 100 ms to 10 s
max. 5 s
Max. Pulse Length: 125 ms at 500 V (Peak)
or 5 ms at 2500 V (Peak)
Display: 16-character, liquid crystal, LCD backlit
Interface:
Relative Humidity: Digital User Interface
60 %
Power supply: 100 - 240 V, 50 / 60 Hz
More Info
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Type
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6274057
450000
Harvard Apparatus (BTX)
1
BTX ECM 399
6754.45 EU
Electroporation system ECM 830
Harvard Apparatus (BTX) (618809)
Electroporation system ECM® 830
The versatile electroporation system is suitable for bacterial and yeast cell transformations, as well as for transfections of mammalian cells and tissues. The supplied safety dome connects to the generator to safely deliver high-voltage electrical pul...
Electroporation system ECM® 830
The versatile electroporation system is suitable for bacterial and yeast cell transformations, as well as for transfections of mammalian cells and tissues. The supplied safety dome connects to the generator to safely deliver high-voltage electrical pulses to cuvettes. Up to two cuvettes can be electroporated simultaneously.
-Large, easy-to-use touchscreen interface
-Preset protocols for commonly used mammalian cell lines and tissues
-Storage of up to 1000 user-defined protocols
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Protocol of each delivered pulse for quality control and troubleshooting
Scope of supply: Generator ECM® 830, safety dome, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 99 pulses per sample
Pulse length LV mode: 10 µs ... 999 ms
Pulse length HV mode: 10 µs ... 600 µs
Pulse interval: 100 ms ... 10 s
Charging time LV mode: <7 s
Charging time HV mode: <4 s
More Info
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4687942
452052
Harvard Apparatus (BTX)
286
216
1
ECM® 830
7.3
324
100 ... 240 V, 50 ... 60 Hz
324 x 286 x 216 mm
16416.92 EU
Electroporation system Gemini Twin Wave SC, Complete system
Harvard Apparatus (BTX) (636339)
Electroporation system Gemini Twin Wave SC, Complete system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic ce...
Electroporation system Gemini Twin Wave SC, Complete system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to be electroporated easily and efficiently in cuvettes with a single device. Prokaryotic cells typically respond well to exponential decay wave pulses, while eukaryotic cells are most efficiently transfected with square wave pulses.
-Large, user-friendly touchscreen interface
-Universal electroporation for transfection of cells in vitro, in vivo, in ovo, and adherent forms
-Preset protocols include the most common eukaryotic and prokaryotic cell types
-User-defined protocols: protocols can be added and modified without limits
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Data protocols store parameters of all delivered pulses for quality control and troubleshooting purposes
-Storage of over 1000 protocols
The supplied safety dome connects to the generator to safely deliver high-voltage electrical pulses to cuvettes. Up to two cuvettes can be electroporated simultaneously.
Scope of supply: Generator Gemini SC, safety dome, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack
Exponential decay pulse
Capacitance LV mode: 25 ... 3275 µF
Capacitance HV mode: 10, 25, 50 µF
Resistance: 50 ... 1000 W
Voltage LV mode: 10 ... 500 V
Voltage HV mode: 510 ... 3000 V
Square wave pulse
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 10 ... 500 V
Voltage HV mode: 510 ... 3000 V
Multiple pulse LV mode: 1 ... 100 pulses per sample
Multiple pulse HV mode: 1 ... 2 pulses per sample
Pulse length LV mode: 0.05 ... 100 ms
Pulse length HV mode: 50 µs ... 5 ms
More Info
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Width~mm
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4687933
452042
Harvard Apparatus (BTX)
216
Gemini SC Complete system
324
1
7.3
286
100 ... 240 V, 50 ... 60 Hz
286 x 216 x 324 mm
16102.94 EU
Electroporation system Gemini Twin Wave SC, Generator
Harvard Apparatus (BTX) (631916)
Electroporation system Gemini Twin Wave SC, Generator
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to...
Electroporation system Gemini Twin Wave SC, Generator
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to be electroporated easily and efficiently in cuvettes with a single device. Prokaryotic cells typically respond well to exponential decay wave pulses, while eukaryotic cells are most efficiently transfected with square wave pulses.
-Large, user-friendly touchscreen interface
-Universal electroporation for transfection of cells in vitro, in vivo, in ovo, and adherent forms
-Preset protocols include the most common eukaryotic and prokaryotic cell types
-User-defined protocols: protocols can be added and modified without limits
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Data protocols store parameters of all delivered pulses for quality control and troubleshooting purposes
-Storage of over 1000 protocols
Scope of supply: Generator Gemini SC
Exponential decay pulse
Capacitance LV mode: 25 ... 3275 µF
Capacitance HV mode: 10, 25, 50 µF
Resistance: 50 ... 1000 W
Voltage LV mode: 10 ... 500 V
Voltage HV mode: 510 ... 3000 V
Square wave pulse
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 10 ... 500 V
Voltage HV mode: 510 ... 3000 V
Multiple pulse LV mode: 1 ... 10 pulses per sample
Multiple pulse HV mode: 1 ... 2 pulses per sample
Pulse length LV mode: 0.05 ... 100 ms
Pulse length HV mode: 50 µs ... 5 ms
More Info
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Depth~mm
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Weight~kg
Width~mm
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4687934
452043
Harvard Apparatus (BTX)
216
Gemini SC Generator
324
1
7.3
286
100 ... 240 V, 50 ... 60 Hz
286 x 216 x 324 mm
15485.29 EU
Electroporation system Gemini Twin Wave X2, Complete system
Harvard Apparatus (BTX) (640859)
Electroporation system Gemini Twin Wave X2, Complete system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic ce...
Electroporation system Gemini Twin Wave X2, Complete system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to be electroporated easily and efficiently in cuvettes or plates with a single device. Prokaryotic cells typically respond well to exponential decay wave pulses, while eukaryotic cells are most efficiently transfected with square wave pulses.
-Large, user-friendly touchscreen interface
-Universal electroporation for transfection of cells in vitro, in vivo, in ovo, and adherent forms
-Preset protocols include the most common eukaryotic and prokaryotic cell types
-User-defined protocols: protocols can be added and modified without limits
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Data protocols store parameters of all delivered pulses for quality control and troubleshooting purposes
-Storage of over 1000 protocols
The supplied safety dome connects to the generator to safely deliver high-voltage electrical pulses to cuvettes. Up to two cuvettes can be electroporated simultaneously.
Scope of supply: Generator Gemini X2, safety dome, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack
Exponential decay pulse
Capacitance LV mode: 25 ... 3275 µF
Capacitance HV mode: 10, 25, 35, 50, 60, 75, 85 µF
Resistance LV mode: 25 ... 1575 W
Resistance HV mode: 50 ... 1575 W
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 2 (depending on amplitude limit of the device)
Pulse interval: 5 ... 30 s
Square wave pulse
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse single sample: 1 ... 99 pulses per sample
More Info
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4687931
452040
Harvard Apparatus (BTX)
216
Gemini X2 Complete system
324
1
7.3
286
100 ... 240 V, 50 ... 60 Hz
286 x 216 x 324 mm
19460.35 EU
Electroporation system Gemini Twin Wave X2, Generator
Harvard Apparatus (BTX) (646971)
Electroporation system Gemini Twin Wave X2, Generator
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to...
Electroporation system Gemini Twin Wave X2, Generator
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to be electroporated easily and efficiently in cuvettes or plates with a single device. Prokaryotic cells typically respond well to exponential decay wave pulses, while eukaryotic cells are most efficiently transfected with square wave pulses.
-Large, user-friendly touchscreen interface
-Universal electroporation for transfection of cells in vitro, in vivo, in ovo, and adherent forms
-Preset protocols include the most common eukaryotic and prokaryotic cell types
-User-defined protocols: protocols can be added and modified without limits
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Data protocols store parameters of all delivered pulses for quality control and troubleshooting purposes
-Storage of over 1000 protocols
Scope of supply: Generator Gemini X2
Exponential decay pulse
Capacitance LV mode: 25 ... 3275 µF
Capacitance HV mode: 10, 25, 35, 50, 60, 75, 85 µF
Resistance LV mode: 25 ... 1575 W
Resistance HV mode: 50 ... 1575 W
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 2 (depending on amplitude limit of the device)
Pulse interval: 5 ... 30 s
Square wave pulse
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse single sample: 1 ... 99 pulses per sample
More Info
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Depth~mm
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Width~mm
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Add
4687932
452041
Harvard Apparatus (BTX)
216
Gemini X2 Generator
324
1
7.3
286
100 ... 240 V, 50 ... 60 Hz
286 x 216 x 324 mm
18720.59 EU
Electroporation system Gemini Twin Wave X2, HT system
Harvard Apparatus (BTX) (652940)
Electroporation system Gemini Twin Wave X2, HT system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to...
Electroporation system Gemini Twin Wave X2, HT system
The Gemini Twin Wave devices are flexible systems that can generate both square wave and exponential decay waves. Ideally suited for all electroporation requirements. The waveform combination allows eukaryotic and prokaryotic cells to be electroporated easily and efficiently in cuvettes or plates with a single device. Prokaryotic cells typically respond well to exponential decay wave pulses, while eukaryotic cells are most efficiently transfected with square wave pulses.
-Large, user-friendly touchscreen interface
-Universal electroporation for transfection of cells in vitro, in vivo, in ovo, and adherent forms
-Preset protocols include the most common eukaryotic and prokaryotic cell types
-User-defined protocols: protocols can be added and modified without limits
-Safety functions: Pre-pulse resistance check, arc protection, and over-current pulse abort
-Data protocols store parameters of all delivered pulses for quality control and troubleshooting purposes
-Storage of over 1000 protocols
With the supplied HT-200 plate handler, 96-well electroporation plates can be processed. The plate handler delivers a single pulse to the wells of the plate, using the parameters set in the generator.
Scope of supply: Generator Gemini X2, safety dome, electroporation cuvettes 1 mm / 2 mm / 4 mm (10 each), cuvette rack, HT-200 plate handler, electroporation plate 2 mm and 4 mm gap
Exponential decay pulse
Capacitance LV mode: 25 ... 3275 µF
Capacitance HV mode: 10, 25, 35, 50, 60, 75, 85 µF
Resistance LV mode: 25 ... 1575 W
Resistance HV mode: 50 ... 1575 W
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse: 1 ... 2 (depending on amplitude limit of the device)
Pulse interval: 5 ... 30 s
Square wave pulse
Capacitance LV mode: 3775 µF
Capacitance HV mode: 85 µF
Voltage LV mode: 5 ... 500 V
Voltage HV mode: 505 ... 3000 V
Multiple pulse single sample: 1 ... 99 pulses per sample
More Info
PN
Manuf. PN
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Depth~mm
Description
Height~mm
PK
Weight~kg
Width~mm
Power supply
Dimensions (WxDxH)
General
Price
Quantity
Status
Add
4687935
452044
Harvard Apparatus (BTX)
216
Gemini X2 HT system
324
1
7.3
286
100 ... 240 V, 50 ... 60 Hz
286 x 216 x 324 mm
27573.53 EU
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