top of page

Perseverance
A Next-Generation Platform for Hydrogenation and Beyond

Designed for versatility, Perseverance empowers scientists to accelerate discovery and development across a wide range of chemistries. From catalytic hydrogenation to reaction screening, kinetic studies, materials research, and modular workflows—Perseverance unites power, precision, and flexibility in a single standalone system.
Singh_Perseverance.6948.png

Versatility That Drives Discovery

Catalytic Hydrogenation

High-pressure hydrogenation with autosampling made simple, reliable, and precise.

Biocatalysis
 

Enable enzyme-driven transformations with integrated pH control and autosampling.

Reaction Screening & Optimization

Explore conditions faster with rapid screening and parameter sweeps.
 

Kinetics & Mechanistic Studies
 

Capture rich kinetic data and mechanistic insights with built-in monitoring

Material Science & Advanced Polymers

Unlock new properties and functionalities in polymers and advanced materials
 

Photochemistry & Electrochemistry

Leverage light and electricity for next-generation transformations, with modular add-ons for photocatalysis and electrocatalysis.

Small Enough for a Bench. Powerful Enough for Discovery.

Proven To Persevere

From high-throughput (HTE) to medium-throughput (MTE), and from 48 reactor wells to 8, Perseverance bridges scale with confidence. Built on the proven foundation of our P-Series reactors, it delivers field-tested reliability that minimizes the risks of adopting new technology. Perseverance has already been rigorously validated in demanding applications, including supported LLDPE runs, solution LLDPE runs, and solution polypropylene runs.

P-48 Polymer_edited.jpg
Singh_Perseverance.6911.png

Sampling Without Compromise (Parallel Autosampling)

  • Minimal-contact probe design, sealed before and after sampling.
     

  • Zero cross-talk by design — no shared flow paths.
     

  • Proven patented injector/sampling valves with track record since 2019.
     

  • Fast, true-parallel sampling: all 8 samples are collected within a very short duration, ensuring accurate kinetic resolution.
     

  • Handles ultra-low sample volumes with user-programmable dilution.
     

  • Works seamlessly under both high-pressure and ambient conditions.

What this means for your lab: Clean, reproducible samples from every well, collected nearly simultaneously, so your kinetic data reflect real reaction progress with no delay artifacts.

Mixing That Moves Discovery (Overhead Stirring)

  • Quick-connect paddles for fast setup and changeover.
     

  • Disposable yet reusable, available in multiple materials for compatibility.
     

  • kLa–validated design, tested and optimized in heterogeneous chemistry runs
     

  • Proven suspension of solids and efficient gas–liquid and liquid–solid transfer
     

What this means for your lab: Cost-effective, versatile stirring that ensures robust mixing and high mass transfer across hydrogenations, biocatalysis, and slurry chemistry.

DSC09364.avif

Where Details Define Discovery

Perseverance is a truly parallel reactor system, engineered so every detail contributes to accuracy and insight. Each of the 8 reactors operates independently, with precise pressure and temperature control and the ability to autosample simultaneously without cross-talk. This level of fidelity ensures that every data point you collect is reliable, reproducible, and ready to accelerate discovery.

IMG_3197.JPG

-40C to 200C(Higher possible)

Thermal Precision, Well by Well

  • Independent temperature settings across all reactor wells.

  • Wide operating range from low to elevated temperatures.

  • Stable, reproducible performance for every run
     

What this means for you lab:

Run Multiple thermal profiles in parallel with confidence and accuracy.

Pressure.PNG

Partial Vac to 580PSI (40 bars)

Pressure, Perfectly Parallel

  • Independent pressure control for each reactor well.

  • True Parallel operation with no cross-talk

  • Works equally well for ambient runs, with excellent solvent retention 

What this means for you lab:

​Flexible experimentation for high-pressure hydrogenations to evaporation-sensitive ambient reactions

Gas_uptake.PNG

Able to measure and control less then 1 mmol reactions

Every Bubble Counts

  • Real-time monitoring of gas consumption or evolution during reactions

  • Quantitively data for catalyst activity, turnover frequency and selectivity 

  • Essential for hydrogenation, kinetic studies, and mechanistic profiling
     

What this means for you lab:

Direct insight into reaction progress and catalyst performance, enabling smarter decisions and faster optimization

Perseverance Excels in a Wide Variety of Demanding Applications

Hydrogenations with homogeneous and heterogeneous catalysts
Polyolefin catalyst screening with Ziegler-Natta or homogeneous catalysts 
Formulations and dispersion screening​
Biocatalysis with pH controls
 
Reactions involving challenging reagents like CO, butadiene, ethylene oxide 
Condensation polymerization (solution or melt-phase)
 
Organic Synthesis
 
Applications where gas uptake measurements could be used as a basis for quenching. 
bottom of page