浙江快乐12开奖结果走势图: MicroActive Interactive Reports
Micromeritics' new innovative MicroActive data analysis software allows users to interactively evaluate isotherm data from Micromeritics' ASAP, TriStar, and Gemini gas adsorption instruments.
Interaction with adsorption data is direct. Users can easily include or exclude data, fitting the desired range of experimentally acquired data points. Interactive data manipulation minimizes the use of dialog boxes to specify calculation parameters allowing accurate and efficient determination of surface area and porosity of their materials. By simply moving calculation bars with the cursor, the user is immediately updated with the new textural properties. One-click access to important parameters allows the user to focus on the result rather than the parameters. It is not necessary to generate reports to view results - now see it graphically and interactively on the screen.
Screen layout has been designed to provide a user-friendly interface. Rapidly switch between a user-selectable experimental data view and traditional advanced or basic views. Isotherms can be viewed on either a linear or logarithmic scale, available to the user under each calculation model. Many gas adsorption models are included - all using the isotherm data. Reports include Isotherm, BET surface area, Langmuir surface area, t-plot, BJH adsorption and desorption, Horvath-Kawazoe, DFT pore size, and Dubinin.
Isotherm – Displayed in two graphic panes with the linear isotherm in one pane and the log of the isotherm in a separate pane. Total pore volume may be calculated by sliding the calculation bar to the desired region of the isotherm. BET surface area – The graphical isotherm allows the user to specify the data used in the BET model by simply sliding the calculation bars to define the range. The graphical BET transform allows the user to obtain the best fit for the transform data. You can view a broad range of the BET model and quickly select the best range for calculating surface area. A second significant advantage is the use of the Rouquerol transform to quickly and easily find a region to calculate the BET area for microporous materials.
Langmuir surface area – The Langmuir model has the same functionality as the BET model. This view uses the graphical isotherm to specify the range of data used in the linear Langmuir transform. The Langmuir plot then allows users to change the range to calculate the desired Langmuir area and constant.
t–plot – The graphical isotherm defines the range of data sent to the thickness plot. The linear region of the thickness plot may then be used to calculate external surface area and pore volume. Not only can the t-plot be manipulated very quickly, but this new view allows direct control over the fitted thickness range.
BJH adsorption and desorption – Change either the thickness curve or the various corrections available for the BJH model to immediately update the pore volume and area distributions. The user can view pore volume, pore volume distribution, cumulative pore area, and pore area distribution in an easy to interpret format.
Horvath–Kawazoe report – Comparable to the BJH view, this report also uses the graphical isotherm to specify the calculation range. Simple to use, interaction parameters or calculated interaction parameters can be specified for rapidly determining the pore size distribution of microporous materials.
DFT pore size report – Regularization is a process that is used to reduce the fluctuations or noise associated with determining the pore size distribution from model isotherms (deconvolution). Residual error is the difference between the measured isotherm and the fitted isotherm for the DFT model. A noisy distribution may be described by a roughness parameter. With MicroActive software, both roughness and residual error are plotted as a function of the regularization parameter. The tedious trial and error approach to pore size characterization is eliminated by introducing easy to use and accurate statistics for determining the best fit of the NLDFT model to the experimental isotherm.
Dubinin – The Dubinin calculation has traditionally been difficult to use as the calculations are presented in reverse order to other more familiar gas adsorption models. MicroActive allows the user to select all of the isotherm data and then simply restrict the calculation to the optimal range via the calculation bars. This saves a significant amount of time and provides immediate feedback on the impact of using different ranges for the calculation.
The software is compatible with Micromeritics ASAP, TriStar, and Gemini .SMP files.