Add to ORKGFor more than ten years our laboratory has been engaged in extending a modular microcalorimetric system designed for accurate work in several areas of basic and applied chemistry and biology. The system includes a very stable thermostatted water bath that can house up to four twin heat-conduction microcalorimeters. The calorimeters are used with various flow vessels or insertion vessels ranging froni simple closed ampoules to stirred vessels fitted with injection tubes, devices facilitating dissolution processes (1, g, s), electrodes (pH, ~(02)) ~ optical cables or equipment for electrochemical processes
Microcalorimetry is a highly sensitive experimental technique that determines heat changes in any pr...
The first microcalorimeter was developed in the 19th century, based on a temperature difference in a...
A flow microcalorimeter operating in mixing mode generates a type of "continuous titrn." when one of...
A new approach in isothermal heat conduction microcalorimetric studies of chemical and biological pr...
A microcalorimetric vessel for monitoring the initial phases of cytotoxic reactions in the micro-sub...
The design and some properties of a new general-purpose isothermal microcalorimeter are reported. Th...
A new batch microcalorimetric vessel for the determination of enthalpies of dissolution of small amo...
Isothermal microcalorimetry is becoming widely used for monitoring biological activities in vitro. M...
AbstractWe present a fluidic micro-calorimeter that shows high versatility measuring both thermal pr...
A simple, low cost system of laboratory scale calorimeters is being developed in our laboratory for ...
The exploitation of microorganisms in natural or technological systems calls for monitoring tools th...
Techniques of isothermal microcalorimetry have been much improved during the past two decades. In ad...
In calorimetry, the heat-flow to or from a sample is measured as a function of time (isothermal calo...
A modified heat-flux, computer-assisted bench calorimeter is described for continuous in situ measur...
The constant temperature bath is in operation. A ballistic type instability was detected in the calo...
Microcalorimetry is a highly sensitive experimental technique that determines heat changes in any pr...
The first microcalorimeter was developed in the 19th century, based on a temperature difference in a...
A flow microcalorimeter operating in mixing mode generates a type of "continuous titrn." when one of...
A new approach in isothermal heat conduction microcalorimetric studies of chemical and biological pr...
A microcalorimetric vessel for monitoring the initial phases of cytotoxic reactions in the micro-sub...
The design and some properties of a new general-purpose isothermal microcalorimeter are reported. Th...
A new batch microcalorimetric vessel for the determination of enthalpies of dissolution of small amo...
Isothermal microcalorimetry is becoming widely used for monitoring biological activities in vitro. M...
AbstractWe present a fluidic micro-calorimeter that shows high versatility measuring both thermal pr...
A simple, low cost system of laboratory scale calorimeters is being developed in our laboratory for ...
The exploitation of microorganisms in natural or technological systems calls for monitoring tools th...
Techniques of isothermal microcalorimetry have been much improved during the past two decades. In ad...
In calorimetry, the heat-flow to or from a sample is measured as a function of time (isothermal calo...
A modified heat-flux, computer-assisted bench calorimeter is described for continuous in situ measur...
The constant temperature bath is in operation. A ballistic type instability was detected in the calo...
Microcalorimetry is a highly sensitive experimental technique that determines heat changes in any pr...
The first microcalorimeter was developed in the 19th century, based on a temperature difference in a...
A flow microcalorimeter operating in mixing mode generates a type of "continuous titrn." when one of...