Tamara
Nanoparticle & RNA-LNP Formulation System
Overview
The TAMARA Nanoparticle Formulation System is a versatile, plug-and-play microfluidic platform designed to streamline nanoparticle synthesis across all R&D phases. It ensures precise control over formulation processes while maximizing sample efficiency through the use of reusable chips — making it an ideal solution for researchers seeking reliability and sustainability in nanoparticle development.
1
Lipid Nanoparticle/RNA-LNP
Formulate virtually any type of lipid nanoparticle (LNP) to power the precise delivery of mRNA, siRNA, tRNA, DNA, saRNA, or ASO — directly to your target cells or organs.
2
Liposomes & SLN
Harness optimised nanoprecipitation and self-assembly process control to effortlessly create a wide variety of lipid-based nanoparticles — from liposomes to solid lipid nanoparticles (SLNs) — with exceptional efficiency.
3
Polymeric Nanoparticles
Unlock the versatility to synthesise a wide range of polymeric nanoparticles — from PLGA and polystyrene to advanced hybrid designs — all with precision and ease.
4
Next-gen nanoparticles
TAMARA goes beyond polymer- and lipid-based nanoparticles, enabling the production of protein and peptide nanoparticles.
Quick & Intuitive
Run your sample in under 2 minutes, even without prior experience
Reusable Chips
Easily clean and reuse the chips for long term savings
All-in-one R&D System
Seamlessly transition from screening (0.2 mL) to in-vivo studies (30 mL) within a single platform
Maximised Reagent Use
Optimised fluidic design to maximize RNA/API usage
Zero-Formulation-Waste
Eliminates pre- and post-formulation waste, a feature that saves precious materials and significantly reduces operational costs.
Flexible Particle Types
One system for all nanoparticles
Formulate all your lipid-based (liposomes, LNP) and polymer-based nanoparticles
Formulate all your lipid-based (liposomes, LNP) and polymer-based nanoparticles
Microfluidic Technology:
TAMARA uses the state-of-the-art microfluidic technology for the synthesis of nanoparticles by nanoprecipitation.
Dual Mixer Designs
Each chip features two idependant microfluidic designs head to toe —Baffle and Herringbone—providing unparalleled flexibility in tailoring nanoparticle characteristics.
Precise control parameters
Easily fine-tune key parameters such as Total Flow Rate (TFR) and Flow Rate Ratio (FRR) to optimize nanoparticle characteristics, including size and polydispersity index (PDI), for consistent and reproducible results.
Dual Mixer Designs
Each chip features two idependant microfluidic designs head to toe —Baffle and Herringbone—providing unparalleled flexibility in tailoring nanoparticle characteristics.
Precise control parameters
Easily fine-tune key parameters such as Total Flow Rate (TFR) and Flow Rate Ratio (FRR) to optimize nanoparticle characteristics, including size and polydispersity index (PDI), for consistent and reproducible results.
Quick & IntuitiveRun your sample in under 2 minutes, even without prior experience
Maximised Reagent UseOptimised fluidic design to maximize RNA/API usage
Zero-Formulation-WasteEliminates pre- and post-formulation waste
Reusable ChipsEasily clean and reuse the chips for long term savings
Microfluidic TechnologyEncapsulation efficiency EE% > 98% & PDI < 0.2 for RNA-LNP
All-in-one R&D SystemFrom Screening to In-Vivo (formulate from 200 μL to 30 mL with one system)
