academia excellence initiative - AutoChem - METTLER TOLEDO

academia excellence initiative - AutoChem

 

Herzlich Willkommen im Bereich "AutoChem"
der academia excellence initiative

Hier finden Sie alles Wissenswerte zum Thema "AutoChem":
 Downloads Dienstleistungen Weiterbildung
 Multimedia-Gallery    
    
 
 
Fachartikel, Expertentipps und Anleitungen sortiert nach Produkt/Applikation:
 EasyMax LabMax Lasentec
 MiniBlock MultiMax RC1
 ReactIR
     

nach oben  

 

EasyMax

 

 

 

Anwendungsbeispiel: Schneller und sicherer synthetisieren

 

EasyMax - Wissenswertes vor der Installation

 

EasyMax - Kurzanleitung

 

EasyMax - Bedienungsanleitung

 

EasyMax - Bedienungsanleitung der Dosiereinheit

 

EasyMax - Produktkatalog

 

EasyMax - Informationsflyer

 

 

   

nach oben  

 LabMax  

 

Anwendungsbeispiel: Relative Supersaturation Control in Batch
Cooling Crystallization

 

LabMax - Reaktoren-Überblick
  

nach oben  

 Lasentec  

 

Anwendungsbeispiel: Advanced crystallization development - Improving yield, throughput, and crystal purity
 

 

Anwendungsbeispiel: Antisolvent crystallization - In-process characterization
 

 

Anwendungsbeispiel: Wet Granulation Scale-up and Control with In Situ
Particle Characterization

 

Anwendungsbeispiel: Use of Lasentec® FBRM® In-Process Particle Sizing; PAT Technique to Study Top and Bottom Spray; Fluid Bed Granulation Process
 

 

Kurzanleitung "Data Acquisition with Lasentec® FBRM"

 

Kurzanleitung II "Data Acquisition with Lasentec® FBRM"

 

Kurzanleitung "Data Review and
Analysis with iC FBRM™"

 

Kurzanleitung "Data review with Lasentec® FBRM®"

 

Kurzanleitung "Positioning the Lasentec® probe"

 

Kurzanleitung "PVM819L Acceptance Criteria"

 

Kurzanleitung "PVM819L Image Aquisition"

 

Kurzanleitung "PVM819L Image Analysis"

 

Lasentec - Particle characterization
made portable

 

Lasentec - Measure Particle Distribution In-Process, Ensure Targeted Granule Size in Real Time
 

 

Lasentec - Characterize particles
in any laboratory environment

 

Lasentec - Revolutionary FBRM® software; powerful data collection and interpretation
 

 

Lasentec - Crystals, Particles and Droplets, Measurement for Real-Time Optimization
 

 

Lasentec - In-process high-resolution particle microscopy, Process Analytical Technology (PAT)
 

 

Lasentec - Multiple Laboratory Experiments Monitored Simultaneously 
  

nach oben  

 MiniBlock  

 

Guide to MiniBlock™ Compatibility
with Genevac Evaporators

 

MiniBlock® Configuration Guide

 

MiniBlock XT Re-Circulating Heat/Cool Base

 

MiniBlock™ XT Low Temperature Bath
Frequently Asked Questions

 

MiniBlock - Maximize Productivity
with Parallel Synthesis

 

MiniBlock® XT-S und XT-S Plus - Parallel Productivity at an Affordable Price
  

nach oben  

 MultiMax  

 

Anwendungsbeispiel: Hydrogenation of Nitrobenzene to Aniline

 

Anwendungsbeispiel: Investigation of a Grignard Reaction at Small Scale

 

Anwendungsbeispiel: Investigation of a Polymer Reaction at Small Scale

 

Anwendungsbeispiel: Investigation of an Imine Formation Small Scale Using Screening Calorimetry
 

 

Kurzanleitung "How to run a MultiMax Experiment"

 

Kurzanleitung "Online data transfer between MM and ReactIR and/or FBRM"

 

MultiMax - Screening, Optimization, Characterization; Maximize Efficiency and Productivity

 

MultiMax - Understand, Characterize, and Optimize in Process Development
  

nach oben  

 RC1  

 

Anwendungsbeispiel: Kinetic and Calorimetric Considerations in the
Scale-up of the Catalytic Reduction
of a Substituted Nitrobenzene

 

 

Anwendungsbeispiel: Process Optimization Cuts High Chemical Production Costs

 

Anwendungsbeispiel: Process Modification Improves Safety and Shortens Downtime
 

 

Anwendungsbeispiel: Process Optimization; RTCal™ – Reduces R&D Cost

 

RC1 - ALR Product Catalog

 

RC1 - Under Pressure; Real Time Calorimetry for Pressure Reactions

 

RC1 - RTCal™ – Real Time Calorimetry; Characterize your Reaction at a Glance
 

 

RC1 - iControl RC1e™ – Simply Powerful; The Key to Process Knowledge
 

 

RC1 - Comprehensive Safety Information in One Click with iC Safety™
 
  
  

nach oben  

 ReactIR  

 

Anwendungsbeispiel: Investigation of
an Imine Formation Small Scale
Using Screening Calorimetry
 

 

Anwendungsbeispiel: Hydrogenation of Nitrobenzene to Aniline

 

Anwendungsbeispiel: Elucidation of Kinetics and Mechanisms;
A Real-Time In Situ Approach

 

Anwendungsbeispiel: Gain insights into difficult chemistry ReactIR™- Amide synthesis via a reactive acid chloride intermediate
 

 

Anwendungsbeispiel: Gain insights
into difficult chemistry; ReactIR™ - Rosenmund reduction

 

 

Anwendungsbeispiel: Gain insights into difficult chemistry; ReactIR™ - selective chlorination
 

 

Kurzanleitung "Data Review and
Analysis with iC IR™"

 

Kurzanleitung "Experiment Setup with iC IR™"

 

ReactIR - Gain Immediate Reaction Information with ConcIRT™ LIVE for iC Software
 

 

ReactIR - Real-time Insight for Organic Chemists with ReactIR™ iC10

 

ReactIR - Seeing is Believing;
Gain a Clear View of Your Chemistry

 

ReactIR - Understand, Characterize, and Optimize in Process Development

 

ReactIR - Gain Insights Into Your Chemistry with ReactIR™ In Situ Reaction Analysis

 

ReactIR - Characterize Your Chemistry
with ReactIR™ 45m
   

nach oben  

 
Multimedia-Gallery  
 
 Das EasyMax-System in Aktion
 
  
   

nach oben  

    
Dienstleistungen  
 
 ServiceXXL
 
  
   

nach oben  

    
Weiterbildung  
 

 
Seminare
 
  

 
Webinare
 
  
   

nach oben  

zurück zur Startseite



Science – powered by METTLER TOLEDO
 
Direkt zu den Produkteseiten:
 
Thank you for visiting www.mt.com. We have tried to optimize your experience while on the site, but we noticed that you are using an older version of a web browser. We would like to let you know that some features on the site may not be available or may not work as nicely as they would on a newer browser version. If you would like to take full advantage of the site, please update your web browser to help improve your experience while browsing www.mt.com.