TINFE — Correct your fluorescence data. Automatically.

Most labs correct for pipetting errors.
But not for light distortion.

Every fluorescence assay is vulnerable to signal distortion caused by the Inner Filter Effect—where excitation and emission light are absorbed, reabsorbed, or attenuated in the sample well.

✕ Non-linear data
✕ Missed peaks
✕ Wasted reagents
✕ Unexplained variability

TINFE corrects both primary and secondary IFE.

Automatically generates traceable audit logs. It’s the correction every lab should be doing, but most aren’t.

See the Science Behind It

How it works—at a glance

1

Upload Data

Upload raw plate data from any major reader (BioTek, Tecan, BMG, etc.).

2

Calibrate Logic

TINFE calibrates on calibration data for your reagents, well geometry, signal path, and attenuation.

3

Instant Results

Get linearised, corrected, audit-ready results in seconds.

The Industry Comparison

Feature	TINFE	Dilution	Absorbance Correction	Short-path optics
Corrects pIFE & sIFE	✓	✕	✕	✓
Preserves Samples	✓	✕	✓	✕
Works with Existing Data	✓	✕	✕	✕
Cost	Affordable	Man-hours and re-runs	Additional experiment	Additional equipment

Built for fluorescence-heavy workflows

CRO Labs

Save time and keep assays audit-ready with automated traceable signal correction.

Pharma & Biotech

Ensure cleaner data from day one of discovery and development.

Academic Research

Publication-ready results using standard plate readers and advanced modeling.

Built for scientific rigor — and built by scientists

TINFE exists to make fluorescence measurements more trustworthy. We focus on physics-based correction, traceability, and clear assumptions—so teams can defend their results, reproduce them, and move faster without compromising quality.

Science-first decisions

We test hypotheses against real data, compare alternative models, and document limits. No black-box “just trust us.”

Traceability by default

Every correction should be explainable and auditable. We design outputs that survive peer review, QA, and tech transfer.

Healthy, high-standards culture

Candor without ego. High bar for quality, low tolerance for blame. We care about people and the work gets better.

Team

A small group that ships like a product team and validates like a research group. Click a profile for background, focus areas, and what each person owns.

CEO

Leadership

Strategy, partnerships, product direction

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Experience: Associate professor and PhD in Pharmaceutical Sciences. Research visits to Ludwig-Maximilan University and University of Oxford.
Focus: translating fluorescence pain points into measurable product outcomes.
Rigor: insists on testable claims and clear success metrics (accuracy, robustness, traceability).
Culture: “disagree and commit,” no heroics, no blame—just learning loops.

CTO

Engineering

Modeling, architecture, reliability

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Experience: Associate professor, PhD in Pharmaceutical Sciences, and post-doc at Duke University. Research visits to University of Debrecen and Kragujevac University.
Focus: making correction robust across instruments, plates, dyes, and edge cases.
Rigor: versioned methods, regression tests, and clear failure modes.
Culture: calm execution—quality gates beat late-night fixes.

COO

Operations

Delivery, customer success, compliance

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Experience: HR in multinational food industry company.
Focus: smooth onboarding, documentation, and outcomes customers can show internally.
Rigor: traceable workflows and audit-friendly deliverables.
Culture: sustainable pace and clarity of ownership.

Small team, tight feedback loop

We iterate with labs, validate on real datasets, and publish what we can. If something changes, we document it. If something fails, we learn fast—and fix the process, not the person.

Talk to the team

Let’s show you how it works in your lab

Book a live walkthrough (15–30 min) with our scientific team. Bring your own data or use our samples.

✓ Upload and correct a plate dataset live

✓ Technical, scientific, and practical Q&A

Resources

Blog

Clear explanations and lab-ready guidance for modern fluorescence workflows.

Read the blog →

FAQs

Answers for CROs, biotech, and R&D labs regarding implementation and science.

Explore FAQs →

Open Call

Publications

Peer-reviewed references and white papers. Apply for our open call by Feb 2026.

Apply by Feb 2026 →

Correct your fluorescence data. Automatically.

Most labs correct for pipetting errors. But not for light distortion.