Sort items by::
Date | Alphabetical
| On Demand Webinar | In Situ Flow Technology to Continuous Processing - Part II For continuous flow chemistry processing, FlowIR is a convenient inline analytical tool. The FTIR instrument for real-time monitoring of continuous flow chemistry is easily incorporated into a variety of flow set-ups and is shown to meet some of the new challenges that flow chemistry presents to the synthetic chemist. |
| On Demand Webinar | How to Avoid Pitfalls with Inline Particle Size Characterization This presentation features case studies that discuss how stuck particle correction changes the paradigm of inline particle characterization and data interpretation. |
| On Demand Webinar | iC Quant™: What are Factors and How Are They Used in Quantitative and Discriminate Analysis? Part II |
| On Demand Webinar | Impact of FTIR Studies on the Understanding of Asymmetric Rhodium Catalyzed Carbenoid Reactions |
| On Demand Webinar | Optimization of Selective Flow Chemistry An overview of continuous flow chemistry and how flow chemistry can be utilized to perform hazardous reactions in a safe and controlled manner is given. Chemistry examples where difficult and selective optimizations were performed using real-time FTIR analytical feedback will be discussed including hydrogenation, carbonylation and ozonolysis. |
| On Demand Webinar | Innovative Methods for Teaching Chemical Kinetic Experimentation Chemical kinetic experimentation methods are discussed by Professor John Sowa. Professor Sowa shows how to perform experiments on well-characterized unimolecular, bimolecular and catalytic reactions and demonstrates experiments that determine reaction order, rate constants and energy of activation. The goal of the presentation is to show how to perform basic experiments so that they can be used in an academic educational environment and for training of industrial chemists. |
| On Demand Webinar | Breakthrough Performance for Inline Particle Characterization |
| On Demand Webinar | Avoiding Incidents at Scale-up: Is Your Process Resistant Towards Maloperation? |
| On Demand Webinar | Safe Process Scale-up - A Case Study of Nitroalkane Chemistry by WeylChem Presentation will show how WeylChem, a global fine chemical company specializing in custom synthesis, avoids process safety and thermal hazard analysis risks by studying heat generation. Your guest presenter, Kevin Drost, is a Senior Process Chemist at WeylChem. A scalable and cost efficient synthetic route to diformylarylbenzene was investigated. It involved a double formylation step that relies on the use of 2-nitropropane as a primary reagent. Due to the inherent energetic nature of nitroalkanes, a process safety assessment was necessary. |
| On Demand Webinar | Enhanced Development of Batch & Continuous Processes Using Real-Time In Situ FTIR Analytics as a Process Analytical Technology (PAT) Tool Real-time in situ FTIR analysis has become a standard tool in the chemical and pharmaceutical industries for providing information rich data that allows a more thorough understanding of reactions during the development and scale-up of chemical processes. |
| On Demand Webinar | Recent Advances in Organic Chemistry in Academia Using Real-Time In Situ FTIR Webinar Series Real-time in situ FTIR is used to study reaction progression, analyze reaction kinetics and to elucidate reaction mechanism and pathway. This free on-demand webinar series covers several recent publications by academia illustrating how real-time in situ FTIR was used to help advance the fundamental understanding of organic chemistry. |
| On Demand Webinar | Asphaltenes, Waxes, Emulsions, and Oil Suspensions in Dark Crude Oil or Drilling Fluids - Inline Particle and Droplet Measurements This focuses on how to study critical particle and droplet-based process inline without the need for samplingnin dark crude oil or drilling fluids: - Understand asphaltene precipitation and deposition in crude oil - Improve oil-water and water-oil separation through in-process droplet characterization - Minimize downtime and optimize separation efficiency by monitoring particle distributions in drilling fluids - Visualize gas hydrate formation to ensure consistent flow-rates - Study inorganic precipitation to prevent scaling |
| On Demand Webinar | Avoiding Batch Failures via Scale Down Simulation of Exothermic Reactions in the Lab Breakthroughs in process operations and modeling are necessary to achieve energy and material efficiency gains supporting shorter development and scale-up times while improving safety and the environmental and economical profile of chemical processes at the same time. In parts, these breakthroughs are made possible thanks to the use of Process Analytical Techniques (PAT) and reactor systems designed for real-time in situ process monitoring and accurate process control, both at lab and plant scale. In this webinar, case studies will be presented exploring the use of real time calorimetry as a process analytical tool mimicking operating conditions of industrial reactors at lab scale – to prevent batch failures at plant scale. |
| On Demand Webinar | Building Green Pharmaceutical Manufacturing on a Foundation of PAT and QbD |
| On Demand Webinar | Recent Advances in Organic Chemistry by Academia Using Real-Time In Situ FTIR – Part VI American Chemical Society (ACS) Journals research articles where real-time in situ FTIR was leveraged to advance chemical research in academia are the focus of this webinar. |
| On Demand Webinar | Optimization and Scale-Up of Anti-Solvent Addition Crystallizations From Lab to Pilot Plant This two part crystallization webinar series is based on an award winning paper presented at the 16th International Process Development Conference. The webinar series focuses on a semi-quantitative method for the optimization and scale-up of hydrodynamically limited anti-solvent crystallization process. This protocol combines in situ Process Analytical Technologies (PAT) with Computational Fluid Dynamics (CFD) to facilitate the production of a knowledge based scale-up strategy for this mixing limited crystallization process. |
| On Demand Webinar | Fluid Bed with Inline FBRM® C35: A Predictor of Dissolution Quality |
| On Demand Webinar | Reaction Progress Kinetic Analysis: A Powerful Methodology for Streamlining the Study of Complex Organic Reactions During Part II of this free webinar series, Donna Blackmond continued to discuss how the Reaction Progress Kinetic Analysis (RPKA) methodology simplifies kinetic studies of organic reactions. Part II focuses on process robustness. |
| On Demand Webinar | Carbon-carbon Coupling Reactions Using Silica Supported Catalysts for Reaction Screening and Library Generation |
| On Demand Webinar | Automating Crystallization Development: Metastable Zone Width Determination and Supersaturation Control |
| On Demand Webinar | Real Time Control of Polymer Particle Size |
| On Demand Webinar | Control Emulsions, Suspensions, and Crystallization with Inline Particle Size Measurements in Dark Crude Oil |
| On Demand Webinar | How to Reduce Risk When Scaling-up Explosive Compounds |
| On Demand Webinar | Recent Advances in Organic Chemistry by Academia Using Real-Time In Situ FTIR - Part V |
| On Demand Webinar | Improving the Understanding and Control of Polymer Synthesis Using Real-Time In Situ FTIR |