Applications
Peer-reveiwed papers on ARCHIMEDES and mass measurement can be found here. Visit our site often as Affinity Biosensors works to make these groundbreaking capabilities available to all researchers.
References
ARCHIMEDES BACKGROUND: Published work underlying ARCHIMEDES’ capabilities
MICROCHANNEL RESONATOR RESEARCH:  Broader topics related to microchannel resonator technology
CYTOMETRY & MICROBIOLOGY RESEARCH:  Groundbreaking work on the growth of individual cells and the cell cycle

ARCHIMEDES Background

Weighing of Biomolecules, Single Cells, and Single Nanoparticles in Fluid, T. P. Burg, M. Godin, W. Shen, G. Carlson, J.S. Foster, K. Babcock, and S.R. Manalis, NATURE, 446, 1066 (2007).

Measuring the Mass, Density, and Size of Particles and Cells using a Suspended Microchannel Resonator, M. Godin, A. K. Bryan, T. P. Burg, K. Babcock, and S. R. Manalis, APPLIED PHYSICS LETTERS 91, 123121, 2007.

Mass-Based Readout for Agglutination Assays, R. Chunara, M.Godin, S.M. Knudsen, and Scott R. Manalis, APPLIED PHYSICS LETTERS 91, 193902, 2007.


MICROCHANNEL RESONATOR RESEARCH

Suspended Microchannel Resonators with Piezoresistive Sensors, J. Lee, R. Chunara, W. Shen, K. Payer, K. Babcock, T. P. Burg and S. R. Manalis, Lab on a Chip: http://pubs.rsc.org | DOI:10.1039/C0LC00447B.

Toward Attogram Mass Measurements in Solution with Suspended Nanochannel Resonators, J. Lee, W. Shen, K. Payer, T.P. Burg, and S.R. Manalis, NANO LETTERS, 2010, 10 (7), pp 2537–2542; DOI: 10.1021/nl101107u.

Nonmonotonic Energy Dissipation in Microfluidic Resonators, T.P. Burg, J.E. Sader, S.R. Manalis, PHYSICAL REVIEW LETTERS, 102 (2009), 228103.

Integrated Measurement of the Mass and Surface Charge of Discrete Microparticles Using a Suspended Microchannel Resonator, P. Dextras, T.P. Burg, and S.R. Manalis, ANALYTICAL CHEMISTRY, 81, No. 11, (2009) 4517.

Suspended Microchannel Resonators for Ultralow Volume Universal Detection, S. Son, W.H. Grover, T.P. Burg, and S. R. Manalis, ANALYTICAL CHEMISTRY, 80 No. 12 (2008), 4757; DOI: 10.1021/ac800307a.


CYTOMETRY and MICROBIOLOGY RESEARCH

Using Buoyant Mass to Measure the Growth of Single Cells, M. Godin, F. Feijó Delgado, S. Son, W.H. Grover, A.K. Bryan, A. Tzur, P. Jorgensen, K. Payer, A.D. Grossman, M.W. Kirschner, and S.R. Manalis, NATURE METHODS, 7, 387 (2010) | DOI:10.1038/nmeth.1452.

Measuring the growth rate of cells, one at a time, G. Charvin NATURE METHODS, 7 No.5 (2010) 363.

Measurement of mass, density, and volume during the cell cycle of yeast, A.K. Bryan, A. Goranov, A. Amon, and S.R. Manalis, PNAS ∣ January 19, 2010 ∣ vol. 107 ∣ no. 3 ∣ 999–1004; www.pnas.org/cgi/doi/10.1073/pnas.0901851107.

Determination of Bacterial Antibiotic Resistance Based on Osmotic Shock Response, S.M. Knudsen, M.G. von Muhlen, D.B. Schauer, and S.R. Manalis, ANALYTICAL CHEMISTRY, 81 No. 16, (2009) 7087; DOI: 10.1021/ac900968r.