Papers

3

Total Citations

108

H-Index

3

About

Daniel J. Ehrlich is a pioneering researcher in microfluidics and lab-on-a-chip technologies, with foundational contributions to high-throughput biological analysis systems. His work sits at the intersection of microfabrication, genomics, and cellular biology, pushing the boundaries of what miniaturized devices can achieve in large-scale screening applications. Ehrlich's most celebrated contribution is the development of a 768-lane microfabricated DNA sequencing system, a landmark advance designed as a direct successor to 96-lane capillary arrays. Implemented on large-format microdevices measuring 25 cm × 50 cm, this system demonstrated that massive parallelism in electrophoretic separations was both feasible and practical, earning 71 citations and representing a significant step forward in genomic throughput. Complementing this work, his 384-channel parallel microfluidic cytometer achieved approximately 30 times the screening speed of conventional FACS systems, enabling rapid rare-cell detection across hundreds of unique samples in minutes — a capability with profound implications for diagnostics and drug discovery. Across his research portfolio, Ehrlich has consistently pursued scalable, high-parallelism microfluidic architectures that democratize access to complex biological assays, making him a notable figure in the evolution of modern bioanalytical instrumentation.

Research Focus

Key Achievements

3
H-Index
3
Papers
108
Total Citations
36
Avg Citations/Paper
🏆 Most Cited Paper
A 768-lane microfabricated system for high-throughput DNA sequencing
71 citations · 2005
📈 Most Prolific Year: 2005 (2 Papers)
🤝 Key Collaborators: 11
🏛 Institutions: Whitehead Institute for Biomedical Research

Top Papers

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Key Collaborators

Contact & Links

Available for collaboration
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