Oxygraph+

Liquid-phase oxygen electrode system for photosynthesis & respiration studies





Oxygraph+

Liquid-phase oxygen electrode system for photosynthesis & respiration studies



> PC operated oxygen electrode control unit with USB

connectivity



> Clear cast acrylic DW1/AD oxygen electrode chamber with integral Clark type polarographic oxygen electrode



> Suitable for liquid-phase samples with 0 – 100% oxygen concentration



> 24 bit high resolution measurement of oxygen signals



> Integral systems for measurement of pH & other ion-selective electrode signals with 16 bit resolution



> System expansion to 8 channels via purchase of additional Oxygraph+ systems



> OxyTrace+ Windows® software for data acquisition, hardware control & data analysis



> Real time 0 – 4.5v analogue output of oxygen electrode signal





Oxygraph+ electrode control unit The next generation Oxygraph+ oxygen electrode control unit combines striking aesthetics with enhanced features and functionality offering significant advances in flexibility and performance over previous generations of electrode control units. As a complete system, Oxygraph+ provides a convenient yet powerful tool for measurements of oxygen evolution or uptake across a broad range of liquid-phase samples from chloroplast extractions to mitochondrial suspensions with oxygen concentrations up to 100%.

Oxygraph+ offers unrivalled price vs. performance combining simplicity of operation with an enviable feature set.

The outstanding flexibility ensures Oxygraph+ is equally useful in both a teaching and research capacity.

24 bit resolution allows detection of minute changes in oxygen tension without needing to apply instrument gain.

This results in beautiful, noise free traces even when zoomed close in on areas of interest. Oxygraph+ allows realtime graphing of signals from auxiliary inputs and ion-selective electrodes. This allows comprehensive analysis of oxygen activity simultaneously with signals such as pH, TPP+, calcium, potassium and hydrogen ions.

Up to 8 individual Oxygraph+ control units may be linked to a single PC and operated simultaneously from OxyTrace+ software providing a powerful, multi-channel system.

Oxygen electrode disc

Since its original design in the early 1970’s by Tom Delieu and David Walker, the S1 Clark Type Oxygen Electrode disc remains largely unchanged – a true testament to the quality and reliability of the sensor.

The S1 consists of a platinum cathode and silver anode set into an epoxy resin disc and is prepared for use by trapping a layer of 50% saturated KCl solution beneath an oxygen permeable PTFE membrane. A paper spacer placed beneath the membrane acts as a wick to O2

provide a uniform layer of electrolyte between anode Membrane

and cathode.

Cathode (Pt) - - - - - -

When a small voltage is applied across these electrodes O + 2H O + 2e- H O + 2OH-2

2

2 2

H O + 2e- 2OH-

2 2

(with the platinum negative with respect to the silver), the current which flows is at first negligible KCl bridge

and the platinum becomes polarised (i.e. it adopts the externally applied potential). As this potential is increased to 700 mV, oxygen is reduced at the platinum surface, initially to hydrogen peroxide H O so that the 2

2

polarity tends to discharge as electrons are donated to oxygen (which acts as an electron acceptor). The current which then flows is stoichiometrically related to KCl electrolyte

the oxygen consumed at the cathode.

in disc well

+ + + + + + Anode (Ag)

When connected to Oxygraph+, the S1 provides a

- +

4e-

4Ag 4Ag+ + 4e-

fast, effective and accurate method of detecting small 0.6 - 0.7v

4Ag+ + 4Cl- 4AgCl

changes in oxygen tension in a liquid-phase sample.





DW1/AD electrode chamber

A component that has proved itself time and again over 4 decades, the DW1/AD electrode chamber offers quality and versatility in measurements of dissolved oxygen. Developed in conjunction with the great Prof. David Walker, the DW1/AD provides a highly flexible solution for a wide range of applications covering both teaching and research in plant and biomedical science.

The reaction vessel of the DW1/AD is constructed from precision bore borosilicate glass tube with a prepared S1 electrode disc forming the floor of the vessel. Precision temperature control of sample and sensor is delivered via a concentric water jacket with suitable connection ports for a thermoregulated circulating water bath.

DW1/AD is fitted with a gas-tight plunger with a stoppered central bore. The height of the plunger may be adjusted easily to suit liquid-phase sample volumes of between 0.2 - 2.5ml whilst the central bore easily accommodates Hamilton type syringes allowing additions/subtractions to/from the reaction vessel during an experiment.

The clear acrylic construction allows high sample visibility and uniform sample illumination using external light sources where necessary.

OxyTrace+ software

OxyTrace+ is a multi-function Windows® program supplied with Oxygraph+ for system configuration, calibration, data acquisition and analysis.

An automated 2 step calibration routine guides the user quickly and effectively through the system calibration process using electrode values measured from air-saturated and deoxygenated water.

A tabbed interface allows a simple transition between the different data views including oxygen electrode (and if configured, auxiliary and external ion-selective electrode) real-time output, a split screen showing real-time rate of change above the oxygen signal and tabulated numerical data.

Post acquisition analysis tools allow automatic calculation of oxygen rates from user-defined rate intervals with saved Comma Separated Values (CSV) data files opening effortlessly in external data processing packages such as MS Excel®.

OxyTrace+ will run on all supported Microsoft operating systems.





System components

Oxygraph+ systems are supplied with the following components:

• OXYG1+: Oxygraph+ electrode control unit

• DW1/AD: Electrode chamber

• S1: Oxygen electrode disc and SMB-SMB connection cable

• A2: Membrane applicator to assist with smooth application of electrode membrane

• A3: Top plate key and alignment jig to dismantle and reassemble DW1/AD for cleaning

• S2/P: Pack of 5 magnetic followers

• S3: Pack of 2 replacement borosilicate glass reaction vessels

• S4: Reel of PTFE membrane (0.0125mm x 25mm x 33m)

• S7A: Set of replacement o-rings for DW1/AD

• S16: Cleaning kit for the S1 electrode disc.

Related systems

Oxytherm+ systems feature custom electrode chambers which are designed with an integral Peltier element providing effective sample and electrode disc temperature control between 3 - 40°C. The Oxytherm+P (specifically designed for photosynthesis measurements) is fitted with dual white LED’s which provide actinic illumination of the reaction vessel contents up to 4000µmols m-2 s-1.

For further information, please contact Hansatech instruments or visit our website.





Technical specifications

Oxygraph+ electrode control unit Measuring range:

Oxygen: 0 - 100% | pH: 0 - 14pH | Aux: 0 - 4.096V

Signal inputs:

Oxygen electrode (SMB) | pH/ISE (BNC) | Auxiliary (8 pin Mini Din) Resolution:

Oxygen: 0.0003% (24 bit) | pH: 0.0006pH (16 bit) | Aux: 62.5µV/bit (16 bit) Polarising voltage:

700mV

Input sensitivity:

0 - 9000nA

Magnetic stirrer:

Software controlled 150 - 900rpm in % steps Sampling rate:

0.1 - 10 readings/s

Electronics:

Microcontroller: 16 bit high performance CPU running at 32 MHz ADC: Dual, Low power, 16/24 Bit Sigma Delta Communications:

USB2.0

Analogue output:

0 - 4.5V O signal

2

Dimensions (HWD):

200 x 110 x 60mm

Weight:

0.45 Kg

Power:

12V dc @ 100mA, 90Vac – 264Vac @ 1A DW1/AD electrode chamber

Suitability:

Liquid-phase respiration/photosynthesis Construction:

Clear cast acrylic

Sample chamber:

Precision bore, borosilicate glass tube Sample volume:

0.2 - 2.5ml

Temperature control:

Water jacket connected to thermoregulated circulating water bath Dimensions (DH):

65 x 105mm

Weight:

100g

Plunger:

Variable height plunger assembly with central bore for sample additions S1 oxygen electrode disc

Electrode type:

Clark type polarographic oxygen sensor Electrode output:

Typically 1.6µA at 21% O2

Residual current:

Typically 0.04µA in 0% O2

Response time:

10 - 90% typically < 5 seconds Oxygen consumption:

Typically <0.015µmol/hr-1

Hansatech Instruments is

Our product range consists of Purchasers of Hansatech

a British company that has

a range of modular solutions

Instruments products can be

been developing high quality

for the measurement of oxygen assured of ongoing support & scientific instrumentation for using Clark type polarographic prompt & efficient attention to over 40 years. Our systems

sensors. We also develop

enquiries at all times. Support are used widely for teaching & chlorophyll fluorescence

is available both directly & from research in cellular respiration measurement systems using

our global distributor network.

& photosynthesis programs both continuous excitation & Customers are encouraged to

in more than 100 countries

pulse-modulated measurement

register their instruments on our throughout the world. We have techniques with further

website which allows access to gained an enviable reputation optical instrumentation for

our Support Ticketing System in for quality, reliability & excellent the measurement of sample

addition to instruments manuals price/performance.

chlorophyll content.

& software upgrades.

Hansatech Instruments Ltd

Narborough Road, Pentney, King’s Lynn, Norfolk PE32 1JL, UK

Tel: +44 (0)1760 338877 Fax: +44 (0)1760 337303

info@hansatech-instruments.com

www.hansatech-instruments.com