Chemostat
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- Design of a Continuous-Flow, Immobilized-Cell Fermentor System for Production of Bioethanol
- Calorimeter-Fermentor Combination for Investigations on Microbial Steady State Cultures H
- INEEL Biotechnology for Oilfield Application – Microbial Enhanced Oil Recovery FY2003 Report
- The Effect of Oxygen and Ozone on Microbial
- Chemostat Culture Systems Support Diverse Bacteriophage Communities from Human Feces Tasha M
- The Single-Cell Chemostat: an Agarose- Based, Microfluidic Device for High- Throughput, Single-Cell Studies of Bacteria and Bacterial Communities
- Pauline M. Doran
- Bacterial Growth
- Designing Automated, High-Throughput, Continuous Cell Growth Experiments Using Evolver
- Information to Users
- Steady State Multiplicity in the Chemostat
- Introduction to the Chemostat H.T
- Plate Reader Turbidostat Final Report
- New Brunswick™ Bioflo 310 Benchtop Fermentor/Bioreactor
- Bioreactor Operating Strategies for Improved Polyhydroxyalkanoate (PHA) Productivity
- Continuous Fermentation to Produce Xanthan Biopolymer: Effect of Dilution Rate*
- Metabolic and Evolutionary Responses of Clostridium Thermocellum to Genetic Interventions Aimed at Improving Ethanol Production Evert K
- Automated Cell Treatment for Competence and Transformation of Escherichia Coli in a High-Throughput Quasi-Turbidostat Using Microtiter Plates