Micro- and nanoelectromechanical biosensors

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Articles

  1. Bestselling Series
  2. Micro And Nanoelectromechanical Biosensors 2014
  3. Detection Limits for Nanoscale Biosensors | Nano Letters
  4. Micro-and Nanoelectromechanical Biosensors

Long, Randall H. Victora, Joshua B. Edel, and Sang-Hyun Oh. Analytical Chemistry , 87 16 , Singh, Jeffrey J. ACS Photonics , 2 6 , Amit Sitt and Henry Hess. Nano Letters , 15 5 , Waynant, Henry Hess, Brian D. Pate, and Paul V. Journal of the American Chemical Society , 15 , Analytical Chemistry , 87 8 , Babak Y. Moghadam, Kelly T. Connelly, and Jonathan D. Analytical Chemistry , 87 2 , Johnson, and Sang-Hyun Oh.

Chemistry of Materials , 26 22 , Nano Letters , 14 5 , Hyung-Jun Koo, Kristopher V. Waynant, Chunjie Zhang, Richard T. Haasch, and Paul V. Chemistry of Materials , 26 8 , Avijit Barik, Lauren M. Nano Letters , 14 4 , Virginia Claudio, Andreas B. Dahlin, and Tomasz J. The Journal of Physical Chemistry C , 13 , Nano Letters , 14 2 , Mark A.

Analytical Chemistry , 86 2 , Jared T. Kindt, Matthew S. Luchansky, Abraham J. Analytical Chemistry , 85 22 , Yaghi, and Rob N. Nano Letters , 13 11 , ACS Nano , 7 10 , Justin D. Besant, Jagotamoy Das, Edward H. Sargent, and Shana O. ACS Nano , 7 9 , Michelle A. Penn, David M. Drake, and Jeremy D. Analytical Chemistry , 85 18 , Bankim J. Sanghavi, Sarita Sitaula, Mark H. Griep, Shashi P.

Karna, Mehnaaz F. Ali, and Nathan S. Analytical Chemistry , 85 17 , Margo R. Monroe, George G. Daaboul, Ahmet Tuysuzoglu, Carlos A. Little, and M. Analytical Chemistry , 85 7 , Shiyun Lin and Kenneth B. ACS Nano , 7 2 , Shailabh Kumar, Nathan J. Wittenberg, and Sang-Hyun Oh.

Bestselling Series

Analytical Chemistry , 85 2 , Rory Stine, Shawn P. Mulvaney, Jeremy T. Robinson, Cy R. Tamanaha, and Paul E. Analytical Chemistry , 85 1 , Sudeshna Pal, Philippe M. Fauchet, and Benjamin L. Analytical Chemistry , 84 21 , Jin-Hee Han, L. Gee, Bruce D. Hammock, and Ian M. ACS Nano , 6 10 , Nano Letters , 12 9 , Journal of the American Chemical Society , 21 , Krishnendu Saha, Sarit S. Gold Nanoparticles in Chemical and Biological Sensing. Chemical Reviews , 5 , Allara, A. Kaan Kalkan, and Melik C.

Langmuir , 28 14 , Matthew S. Luchansky and Ryan C. Analytical Chemistry , 84 2 , Analytical Chemistry , 84 1 , ACS Nano , 5 10 , ACS Nano , 5 8 , Ross, Edward H. ACS Nano , 5 4 , Nano Letters , 11 4 , Hao Zhang, Mark H. Johnson, William C. Analytical Chemistry , 83 1 , Carlos Escobedo, Alexandre G. Brolo, Reuven Gordon, and David Sinton. Analytical Chemistry , 82 24 , Zevenbergen, Cees Dekker, and Serge G. Journal of the American Chemical Society , 48 , Ahmet A. Geisbert, John H.

Connor, and Hatice Altug. Nano Letters , 10 12 , ACS Nano , 4 11 , Gengfeng Zheng, Xuan P. Gao and Charles M. Nano Letters , 10 8 , Parag Katira and Henry Hess. Nano Letters , 10 2 , Analytical Chemistry , 82 3 , Assessment of Nanotechnology for Chemical Biological Defense. Andreas B. Dahlin, Si Chen, Magnus P. Analytical Chemistry , 81 16 , Gufeng Wang, Jeremy D. Driskell, Marc D. Porter and Robert J. Analytical Chemistry , 81 15 , Loredana Latterini and Matteo Amelia. Sensing Proteins with Luminescent Silica Nanoparticles.

Langmuir , 25 8 , Jack C. Rife, James P. Long, John Wilkinson and Lloyd J. Langmuir , 25 6 , Lemay and Cees Dekker. Nano Letters , 9 1 , Dong Rip Kim and Xiaolin Zheng. Nano Letters , 8 10 , Analytical Chemistry , 80 14 , Silicon Nanoribbons for Electrical Detection of Biomolecules. Nano Letters , 8 3 , Analytical Chemistry , 79 24 , Sigworth,, Ronald Breaker,, Tarek M. Fahmy, and, Mark A.

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Micro And Nanoelectromechanical Biosensors 2014

Nano Letters , 7 11 , Victor N. Morozov,, Stephanie Groves,, Michael J. Turell, and, Charles Bailey. Journal of the American Chemical Society , 42 , Jeremy D. Driskell,, Jill M. Uhlenkamp,, Robert J. Lipert, and, Marc D. Analytical Chemistry , 79 11 , Amanda J. Haes,, Alex Terray, and, Greg E. Analytical Chemistry , 78 24 , Journal of the American Chemical Society , 26 , Andrei P. Mester, and, Harry T. Biosensor for Detection of Nanobacteria in Water. Champika Samarasekera, Jame G.

Sun, Zhou Zheng, John T. Trapping, separating, and palpating microbead clusters in droplets and flows using capacitive micromachined ultrasonic transducers CMUTs. Sensors and Actuators B: Chemical , , Localized collection of airborne biological hazards for environmental monitoring. A recyclable biointerface based on cross-linked branched DNA nanostructures for ultrasensitive nucleic acid detection.

Biosensors and Bioelectronics , , Nimshi L. Surface and Coatings Technology , , Shiyan Zhang, Spencer J. Kieffer, Chunjie Zhang, Andrew G. Alleyne, Paul V. Advanced Materials , , Ashley J. Driscoll, Patrick A. Numerical modeling of analyte diffusion and adsorption behavior in microparticle and nanoparticle based biosensors. Chemical Engineering Science , , Magnetically-focusing biochip structures for high-speed active biosensing with improved selectivity. Nanotechnology , 29 26 , Leveraging coffee-ring effect on plasmonic paper substrate for sensitive analyte detection using Raman spectroscopy.

Elena E. Annual Review of Analytical Chemistry , 11 1 , Ana S. Requejo, Javier M. Montserrat, Fernando Battaglini. Characterization and electrochemical response of DNA functionalized 2 nm gold nanoparticles confined in a nanochannel array. Bioelectrochemistry , , Highly sensitive and specific on-site detection of serum cocaine by a low cost aptasensor.

Materials , 11 5 , Christopher A.

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Chapman, Noah Goshi, Erkin Seker. Advanced Functional Materials , 28 12 , Electrothermal enrichment of submicron particles in an insulator-based dielectrophoretic microdevice. Materials , 11 3 , Shailabh Kumar. Self-directed Transport on Nanostructured Plasmonic Sensors.

Avijit Barik, Sang-Hyun Oh. Enhanced Plasmonic Detection with Dielectrophoretic Concentration. Zheyao Wang, Wenzhou Ruan. Microcalorometers for Detection of Trace Energetic Chemicals. Agnieszka A. Zuber, Elizaveta Klantsataya, Akash Bachhuka. Applications and developments of on-chip biochemical sensors based on optofluidic photonic crystal cavities. Lab on a Chip , 18 1 , Aldewachi, T.


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  • 1. Introduction.
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Chalati, M. Woodroofe, N. Bricklebank, B. Sharrack, P. Gold nanoparticle-based colorimetric biosensors. Nanoscale , 10 1 , Scientific Reports , 7 1 DOI: Paresa Modarres, Maryam Tabrizian. Alternating current dielectrophoresis of biomacromolecules: The interplay of electrokinetic effects. CMOS fabricated large array of free standing substrate-less photonic crystal cavities for biosensing applications. Angewandte Chemie , 33 , Angewandte Chemie International Edition , 56 33 , Farzia Karim, Todd B. Smith, Chenglong Zhao. Review of optical detection of single molecules beyond the diffraction and diffusion limit using plasmonic nanostructures.

Journal of Nanophotonics , 12 1 , Breaking the diffusion-limit of the nano-plasmofluidic biosensing with two regimes of AC electrohydrodynamic flow. Renny E. Review: Microbial analysis in dielectrophoretic microfluidic systems. Analytica Chimica Acta , , Drastic sensing enhancement using acoustic bubbles for surface-based microfluidic sensors. Concentric manipulation and monitoring of protein-loaded superparamagnetic cargo using magnetophoretic spider web. NPG Asia Materials , 9 3 , e Electroanalysis , 29 3 , Jacob T. Connor, M. Selim Unlu. Sambeeta Das, Oleg E. Mallouk, Anna C.

Detection Limits for Nanoscale Biosensors | Nano Letters

Balazs, Ayusman Sen. Harnessing catalytic pumps for directional delivery of microparticles in microchambers. Nature Communications , 8 , Christine M. Gabardo, Robert C. Adams-McGavin, Barnabas C. Fung, Eric J. Mahoney, Qiyin Fang, Leyla Soleymani. Rapid prototyping of all-solution-processed multi-lengthscale electrodes using polymer-induced thin film wrinkling. Scientific Reports , 7 , Micromachines , 8 2 , Allsop, C. Mou, R. Neal, S. Mariani, D. Nagel, S.

Tombelli, A. Poole, K. Kalli, A. Hine, D.

Microcantilevers as Biosensors

Webb, P. Culverhouse, M. Mascini, M. Minunni, I. Real-time kinetic binding studies at attomolar concentrations in solution phase using a single-stage opto-biosensing platform based upon infrared surface plasmons.

Micro-and Nanoelectromechanical Biosensors

Optics Express , 25 1 , Kristopher V. Qualitative degradation of the pesticide coumaphos in solution, controlled aerosol, and solid phases on quaternary ammonium fluoride polymer brushes. Polymers for Advanced Technologies , 28 1 , Fast immunoassay. Hybrid plasmonic—photonic whispering gallery mode resonators for sensing: a critical review.

The Analyst , 6 , Benjamin M. Field-effect sensors — from pH sensing to biosensing: sensitivity enhancement using streptavidin—biotin as a model system. The Analyst , 22 , Magnetic sensing platform technologies for biomedical applications. Lab on a Chip , 17 11 , Hosseini, D. Philpott, L. Enrichment of magnetic particles using temperature and magnetic field gradients induced by benchtop fabricated micro-electromagnets.

Lab on a Chip , 17 23 , Journal of Alloys and Compounds , , Justin R. Burr, Michael G. Wood, Ronald M. Amr M. Ndukaife, Alexandra Boltasseva, Vladimir M. Proceedings of the IEEE , 12 , Fischer, Thorsten Hesjedal. Free-standing millimetre-long Bi2Te3 sub-micron belts catalyzed by TiO2 nanoparticles. An effective electrical sensing scheme using AC electrothermal flow on a biosensor platform based on a carbon nanotube network. Applied Physics Letters , 22 , Michael G.

Wood, Justin R. Burr, Ronald M. Optics Express , 24 20 , Electrokinetic effect for molecular recognition: A label-free approach for real-time biosensing. Biosensors and Bioelectronics , 82 , Selmi, R. Khemiri, F. Echouchene, H. Electrothermal effect on the immunoassay in a microchannel of a biosensor with asymmetrical interdigitated electrodes. Applied Thermal Engineering , , Advanced Functional Materials , 26 24 , Plasmonics , 11 3 , Aldridge, Edward H. Sargent, Shana O.

Advanced Healthcare Materials , 5 8 , Rapid and sensitive detection of small biomolecule by capacitive sensing and low field AC electrothermal effect. Self-propelled affinity biosensors: Moving the receptor around the sample. Biosensors and Bioelectronics , 76 , Michele Amato, Riccardo Rurali. Surface physics of semiconducting nanowires. Progress in Surface Science , 91 1 , Hyacinthe Randriamahazaka, Jalal Ghilane. Electroanalysis , 28 1 , Nanostructure Field Effect Transistor Biosensors. Sensing protein antigen and microvesicle analytes using high-capacity biopolymer nano-carriers. The Analyst , 3 , Bu Wang, Xuanhong Cheng.

Enhancement of binding kinetics on affinity substrates by laser point heating induced transport. The Analyst , 5 , Brittany J. Sanders, Daniel C. Kim, Robert C. Recent advances in microscale western blotting. Analytical Methods , 8 39 , Li, Y. Xu, J. Xiang, X. Li, C. Zhang, S. Tie, S. Exploiting the interaction between a semiconductor nanosphere and a thin metal film for nanoscale plasmonic devices.

Nanoscale , 8 45 , Murat Kuscu, Ozgur Akan. Shengjie Zhai, Hui Zhao. MRS Advances , 1 28 , Kinetic studies of microfabricated biosensors using local adsorption strategy. Biosensors and Bioelectronics , 74 , Yin Zhang, Ya-Pu Zhao. Mass and force sensing of an adsorbate on a string resonator. Manish Sriram, Kelly Zong, S. Vivekchand, J. Single Nanoparticle Plasmonic Sensors. Sensors , 15 10 , Adam T.

Heiniger, Benjamin L. Miller, Philippe M. Numerical study of sensitivity enhancement in a photonic crystal microcavity biosensor due to optical forces. Optics Express , 23 19 , Diagnostic Challenges of Nanomedicine. Venstra, Herre S. A nanorobot control algorithm using acoustic signals to identify cancer cells in Non-Newtonian blood fluid. Nanoconstriction-based electrodeless dielectrophoresis chip for nanoparticle and protein preconcentration. Applied Physics Express , 8 8 , Mallouk, Ayusman Sen. Annual Review of Analytical Chemistry , 8 1 , Tashkhourian, S. A sensitive electrochemical sensor for determination of gallic acid based on SiO2 nanoparticle modified carbon paste electrode.

Materials Science and Engineering: C , 52 , Sensors , 15 7 , Sensitivity and detection limit analysis of silicon nanowire bio chemical sensors. Arthur W. Snow, F. Keith Perkins, Mario G. Ancona, Jeremy T. Robinson, Eric S. Snow, Edward E. Sarah Wildgen, Robert Dunn. Biosensors , 5 1 , Barbara Sanavio, Silke Krol. Angewandte Chemie , 7 , Angewandte Chemie International Edition , 54 7 , Advanced Functional Materials , 25 6 , Ajit Sadana, Neeti Sadana. Detection of Cancer Biomarkers by Biosensors. Sensing applications based on plasmonic nanopores: The hole story.

The Analyst , 14 , A tale of two forces: simultaneous chemical and acoustic propulsion of bimetallic micromotors. Chemical Communications , 51 6 , James E. Baker, Rashmi Sriram, Benjamin L. Two-dimensional photonic crystals for sensitive microscale chemical and biochemical sensing. Lab on a Chip , 15 4 , Mansoureh Z. The Analyst , 12 , Enrique Valera, Melinda S. McClellan, Ryan C. Magnetically-actuated, bead-enhanced silicon photonic immunosensor. Analytical Methods , 7 20 , Ultrafast immunoassays by coupling dielectrophoretic biomarker enrichment in nanoslit channel with electrochemical detection on graphene.

Lab on a Chip , 15 24 , Ultrarapid and ultrasensitive electrical detection of proteins in a three-dimensional biosensor with high capture efficiency. Nanoscale , 7 21 , Grimaldi, G. Testa, R. Flow through ring resonator sensing platform. RSC Advances , 5 86 , Shana O. Kelley, Chad A. Mirkin, David R. Walt, Rustem F. Ismagilov, Mehmet Toner, Edward H.

Advancing the speed, sensitivity and accuracy of biomolecular detection using multi-length-scale engineering. Nature Nanotechnology , 9 12 , Ultrasensitive digital detection of nanoparticles: Viral diagnostics and multiplexed protein and nucleic acid assays. Small , 10 22 , Sensors , 14 9 , Chao Liu, Kwanoh Kim, D.

Location deterministic biosensing from quantum-dot-nanowire assemblies. Applied Physics Letters , 8 , Integrated planar optical waveguide interferometer biosensors: A comparative review. Biosensors and Bioelectronics , 58 , Pengchao Zhang, Shutao Wang. ChemPhysChem , 15 8 , Fabrication of nanoelectromechanical systems via the integration of high surface area glancing angle deposition thin films.

Journal of Micromechanics and Microengineering , 24 6 , Micromachines , 5 2 , Alabastri, A. Toma, A. Giugni, B. Torre, M. Malerba, E. Miele, F. De Angelis, C. Liberale, G. Das, E. Di Fabrizio, R. Proietti Zaccaria. Mohiuddin Munna, Md. Obidul Islam, Md. Kabiruzzaman, Zahid Hasan Mahmood. Performance analysis of a Si-NW biosensor for detection of charged biomolecules.

Dielectric resonating microspheres for biosensing: An optical approach to a biological problem. American Journal of Physics , 82 5 , Neil P. Advanced Materials , 26 14 , Biosensing enhancement using passive mixing structures for microarray-based sensors. Biosensors and Bioelectronics , 54 , Holmes, Adrian M.

Nightingale, Adrian M. Zilch, Nicole S. Sebastian T. Bartsch, Maren Arp, Adrian M. Junctionless Silicon Nanowire Resonator. Kannan Balasubramanian, Klaus Kern. Advanced Materials , 26 8 , Shaurya Prakash, Junghoon Yeom. Fundamentals for Microscale and Nanoscale Flows. Lab-on-a-Chip and Fluid Manipulation Applications. Highly sensitive detection of molecular interactions with plasmonic optical fiber grating sensors.

Biosensors and Bioelectronics , 51 , AC electrokinetics-enhanced capacitive immunosensor for point-of-care serodiagnosis of infectious diseases. Binding assay for low molecular weight analytes based on reflectometry of absorbing molecules in porous substrates. The Analyst , 8 , Selective on site separation and detection of molecules in diluted solutions with super-hydrophobic clusters of plasmonic nanoparticles. Nanoscale , 6 14 , De, S. Chen, E.

Probe-free semiconducting silicon nanowire platforms for biosensing. Nitin K. Rajan, Xuexin Duan, Mark A. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology , 5 6 , Rapid detection of progesterone by commercially available microelectrode chips. Complementary metal oxide semiconductor-compatible silicon nanowire biofield-effect transistors as affinity biosensors. Nanomedicine , 8 11 , Ultrafast molecular motor driven nanoseparation and biosensing.

Biosensors and Bioelectronics , 48 , Magnetostrictive resonators as sensors and actuators. Sensors and Actuators A: Physical , , Elewout Hallynck, Peter Bienstman. Biosensors and Bioelectronics , 45 , Max M. Gong, Brendan D. Field tested milliliter-scale blood filtration device for point-of-care applications. Biomicrofluidics , 7 4 , Nano , , Sudeshna Pal, Amrita R. Yadav, Mark A.


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Selective virus detection in complex sample matrices with photonic crystal optical cavities. Biosensors and Bioelectronics , 44 , Impact-ionization field-effect-transistor based biosensors for ultra-sensitive detection of biomolecules. Applied Physics Letters , 20 , Wafer-level packaging and laser bonding as an approach for silicon-into-lab-on-chip integration. Journal of Micromechanics and Microengineering , 23 5 , Scaling down constriction-based electrodeless dielectrophoresis devices for trapping nanoscale bioparticles in physiological media of high-conductivity.

Johnson, Heiko O. Effective localized collection and identification of airborne species through electrodynamic precipitation and SERS-based detection. Nature Communications , 4 , Takahiro Nitta, Henry Hess. Cellular and Molecular Bioengineering , 6 1 , Jing Neng, Mark H. Harpster, William C. Wilson, Patrick A. Biosensors and Bioelectronics , 41 , Electrodeless dielectrophoretic concentrator for analyte pre-concentration on poly-silicon nanowire field effect transistor. Gracia-Espino, F. Kim, T.

Hayashi, H. Muramatsu, M. Endo, H. Terrones, Mauricio Terrones, Mildred S. A3 — Integrated nonlinear photonics II. B3 — Passive integrated photonic structures and design methodologies. Poster session W. Plenary T. Parallel T. A1 — Photonic sensors and thermal effects. B1 — Spectroscopy. Poster session T. A2 — Integrated light sources. B2- Microwave photonics and high-speed photodetectors.

Parallel F. A1 — Integrated light sources II. B1 — High-speed photonics. A2 — InP Devices. B2 — Heterogeneous Integration. Plenary F. Session: Quantum integrated photonics. Session: Spectroscopy. Session: Programmable and reconfigurable PICs. Session: From monolithic to heterogeneous and hybrid integration. Session: Technologies from visible to mid-infrared applications. Plenary Session. Plenary Session 2. Plenary Session 3. Plenary Session 4. Session 6 Active Devices. Session 8 Active Devices. Session 9 Paradigm. Session 11 Company Session. Poster Session.

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