| ID |
Title |
Authors |
| 1 | A portable impedance biosensor instrument for rapid detection of avian influenza virus |
Lin J., Lum J., Wang R., Tung S., Hargis B., Li Y., Lu H., Berghman L. |
|
| 2 | Fe-PDMS fabricated microchannels for peristaltic pump applications |
Leu T.-S., Jiang P.-C. |
|
| 3 | Effects of stray field distribution generated by magnetic beads on giant magnetoresistance sensor for biochip applications |
Kim K.S., Choi S., Lee G.J., Park D.H., Park J.H., Jo I.S., Park H.-K. |
|
| 4 | A novel application of ferro fluid actuation with PDMS microchannel |
Chang Y.-J., Hu C.-Y., Lin C.-H. |
|
| 5 | Picomolar detection limit on a magnetoresistive biochip after optimization of a thiol-gold based surface chemistry. |
Martins V.C., Cardoso F.A., Freitas P.P., Fonseca L.P. |
|
| 6 | Evaluation of certain physicochemical and thin film parameters including bioelectronics properties of human fat containing adipose tissues for early detection obesity in children |
Aithal K.S., Kumar P., Nalini K., Poornesh P., Thukaram M. |
|
| 7 | Powerful actuation of magnetized microtools by focused magnetic field for particle sorting in a chip |
Yamanishi Y., Sakuma S., Onda K., Arai F. |
|
| 8 | Microfluidic "thin chips" for chemical separations |
Gaspar A., Salgado M., Stevens S., Gomez F.A. |
|
| 9 | Challenges and trends in the development of a magnetoresistive biochip portable platform |
Martins V.C., Germano J., Cardoso F.A., Loureiro J., Cardoso S., Sousa L., Piedade M., Fonseca L.P., Freitas P.P. |
|
| 10 | A novel three-dimensional aerogel biochip for molecular recognition of nucleotide acids |
Li Y.K., Yang D.-K., Chen Y.-C., Su H.-J., Wu J.-C., Chen-Yang Y.W. |
|
| 11 | Magnetic Nanotechnology for Biodetection |
Han S.-J., Wang S. |
|
| 12 | Future standards in diagnosing Parkinson syndrome [Zukünftige Diagnosestandards beim Parkinson-Syndrom] |
Reichmann H. |
|
| 13 | Integrated microfluidic magnetic immunosensor for quantification of human serum IgG antibodies to Helicobacter pylori |
Pereira S.V., Messina G.A., Raba J. |
|
| 14 | Measuring and extraction of biological information on new handheld biochip-based microsystem |
Lopes P.A.C., Germano J., De Almeida T.M., Sousa L.A., Piedade M.S., Cardoso F.A., Ferreira H.A., Freitas P.P. |
|
| 15 | On the modeling of new tunnel junction magnetoresistive biosensors |
De Almeida T.M., Piedade M.S., Sousa L.A., Germano J., Lopes P.A.C., Cardoso F.A., Freitas P.P. |
|
| 16 | World Congress on Medical Physics and Biomedical Engineering: Micro- and Nanosystems in Medicine, Active Implants, Biosensors |
[No author name available] |
|
| 17 | Molecular methods in biological systems |
McMahon K.D., Gu A.Z., Nerenberg R., Sturm B.M. |
|
| 18 | Continuous micro-magnetophoretic separation using a dipole magnetic field |
Son O.-T., Roh J.W., Song S.-H., Park J.-S., Lee W., Jung H.-I. |
|
| 19 | Optimization of the multilayer structures for a high field-sensitivity biochip sensor based on the planar Hall effect |
Hung T.Q., Oh S., Anandakumar S., Jeong J.-R., Kim D.-Y., Kim C. |
|
| 20 | A microfluidic-based hybrid SPR/molecular imaging biosensor for the multiplexed detection of food-borne pathogens. |
Zordan M.D., Grafton M.M.G., Acharya G., Reece L.M., Aronson A.I., Park K., Leary J.F. |
|
| 21 | A portable and autonomous magnetic detection platform for biosensing |
Germano J., Martins V.C., Cardoso F.A., Almeida T.M., Sousa L., Freitas P.P., Piedade M.S. |
|
| 22 | Optimization of spin-valve structure NiFe/Cu/NiFe/IrMn for planar hall effect based biochips |
Tu B.D., Cuong L.V., Hung T.Q., Giang D.T.H., Danh T.M., Duc N.H., Kim C. |
|
| 23 | A depletion detection architecture based on magnetoresistive sensors for bioapplication |
Zheng F., Wang H., Zhang L. |
|
| 24 | Development of a magnetic lab-on-a-chip for point-of-care sepsis diagnosis |
Schotter J., Shoshi A., Brueckl H. |
|
| 25 | Femtomolar limit of detection with a magnetoresistive biochip |
Martins V.C., Cardoso F.A., Germano J., Cardoso S., Sousa L., Piedade M., Freitas P.P., Fonseca L.P. |
|
| 26 | Glycan tagging to produce bioactive ligands for a surface plasmon resonance (SPR) study via immobilization On different surfaces |
Hernaiz M.J., Munoz F.J., JosePerez, Rumbero A., Santos J.I., Canada F.J., Andre S., Gabius H.-J., Jimenez-Barbero J., Sinisterra J.V. |
|
| 27 | Detection of pathogenic E. coli O157:H7 by a hybrid microfluidic SPR and molecular imaging cytometry device |
Zordan M.D., Grafton M.M.G., Acharya G., Reece L.M., Cooper C.L., Aronson A.I., Park K., Leary J.F. |
|
| 28 | Development of a magnetic bead microarray for simultaneous and simple detection of four pestiviruses |
LeBlanc N., Gantelius J., Schwenk J.M., Stahl K., Blomberg J., Andersson-Svahn H., Belak S. |
|
| 29 | Multiplex protein assays based on real-time magnetic nanotag sensing |
Osterfeld S.J., Yu H., Gaster R.S., Caramuta S., Xu L., Han S.-J., Hall D.A., Wilson R.J., Sun S., White R.L., Davis R.W., Pourmand N., Wang S.X. |
|
| 30 | Giant magnetoresistive biosensors for molecular diagnosis: Surface chemistry and assay development |
Yu H., Osterfeld S.J., Xu L., White R.L., Pourmand N., Wang S.X. |
|
| 31 | Ferromagnetic resonance biochip for diagnosing pancreatic cancer |
Casler E., Chae S., Kunduru V., Bothara M., Yang E., Ghinoea S., Dhagat P., Prasad S. |
|
| 32 | Versatile strategy for the synthesis of biotin-labelled glycans, their immobilization to establish a bioactive surface and interaction studies with a lectin on a biochip |
Munoz F.J., Rumbero A., Sinisterra J.V., Santos J.I., Andre S., Gabius H.-J., Jimenez-Barbero J., Hernaiz M.J. |
|
| 33 | Nanotechnology 2008: Life Sciences, Medicine, and Bio Materials - Technical Proceedings of the 2008 NSTI Nanotechnology Conference and Trade Show, NSTI-Nanotech 2008 |
[No author name available] |
|
| 34 | Giant magnetoresistive biochip for DNA detection and HPV genotyping |
Xu L., Yu H., Akhras M.S., Han S.-J., Osterfeld S., White R.L., Pourmand N., Wang S.X. |
|
| 35 | Progress in using magnetic nanoobjects for biomedical diagnostics |
Kataeva N., Schotter J., Shoshi A., Heer R., Eggeling M., Bethge O., Nohammer C., Bruckl H. |
|
| 36 | Integrated spintronic platforms for biomolecular recognition detection |
Martins V.C., Cardoso F.A., Loureiro J., Mercier M., Germano J., Cardoso S., Ferreira R., Fonseca L.P., Sousa L., Piedade M.S., Freitas P.P. |
|
| 37 | Giant magnetoresistive biochips for biomarker detection and genotyping: An overview |
Wang S.X. |
|
| 38 | Advances in giant magnetoresistance biosensors with magnetic nanpparticle tags: Review and outlook |
Wang S.X., Li G. |
|
| 39 | Physiomics |
Gomase V.S., Tagore S. |
|
| 40 | Controlled antibody immobilization onto immunoanalytical platforms by synthetic peptide |
Jung Y., Kang H.J., Lee J.M., Jung S.O., Yun W.S., Chung S.J., Chung B.H. |
|
| 41 | Remote detection of nuclear magnetic resonance with an anisotropic magnetoresistive sensor |
Verpillat F., Ledbetter M.P., Xu S., Michalak D.J., Hilty C., Bouchard L.-S., Antonijevic S., Budker D., Pines A. |
|
| 42 | Planar Hall resistance sensor for biochip application |
Thanh N.T., Parvatheeswara Rao B., Duc N.H., Kim C. |
|
| 43 | Microfluidic ELISA on non-passivated PDMS chip using magnetic bead transfer inside dual networks of channels |
Herrmann M., Roy E., Veres T., Tabrizian M. |
|
| 44 | A new handheld biochip-based microsystem |
Lopes P.A.C., Germano J., Almeida T.M., Sousa L., Piedade M.S., Cardoso F., Ferreira H.A., Freitas P.P. |
|
| 45 | Biochip for separating fetal cells from maternal circulation |
Mohamed H., Turner J.N., Caggana M. |
|
| 46 | Manipulation of phospholiposome in microfluidic channel using lorentz force |
Son O.-T., Park J.-H., Lee C.-G., Lee C., Jung H.-I. |
|
| 47 | Ultrasensitive electrical detection of protein using nanogap electrodes and nanoparticle-based DNA amplification |
Chang T.-L., Tsai C.-Y., Sun C.-C., Chen C.-C., Kuo L.-S., Chen P.-H. |
|
| 48 | Synthesis and molecular weight and structural determinations of (polyvinylpyrrolidone)-oximate-silico-benzoyl glycine copolymer with IR and NMR spectroscopy |
Singh M., Chauhan S. |
|
| 49 | Noise characteristics and particle detection limits in diode+MTJ matrix elements for biochip applications |
Cardoso F.A., Ferreira R., Cardoso S., Concle J.P., Chu V., Freitas P.P., Germano J., Almeida T., Sousa L., Piedade M.S. |
|
| 50 | Nanostructured magnetizable materials that switch cells between life and death |
Polte T.R., Shen M., Karavitis J., Montoya M., Pendse J., Xia S., Mazur E., Ingber D.E. |
|
| 51 | Ultrasensitive electrical DNA identification with bio-bar-code DNA and nanoparticles in nanogap device |
Chang T.-L., Liou D.-S., Lin H.-Y., Chang F.-Y., Chen P.-H. |
|
| 52 | The Korean Research and Development Program on Micro-Electro-Mechanical Systems (MEMS) in medical applications |
Kim T.S., Kim S.J., Chung B.H., Yoo K.-H., Park S.H. |
|
| 53 | Nanostructured layers from DNA, DNA:AU, DNA:C60 clusters |
Ivanyuta O., Kolomiyets D., Prokopenko O., Schaternik O. |
|
| 54 | Biocompatible heterostructured nanoparticles for multimodal biological detection |
Choi J.-S., Jun Y.-W., Yeon S.-I., Kim H.C., Shin J.-S., Cheon J. |
|
| 55 | Biomolecular diagnostics by a magnetic lab-on-a-chip |
Bruckl H., Eggeling M., Heer R., Nohammer C., Schotter J. |
|
| 56 | Determination of biological expression signals on a new handheld biochip-based microsystem |
Lopes P.A.C., Germano J., Almeida T.M., Sousa L., Piedade M.S., Cardoso F., Ferreira H.A., Freitas P.P. |
|
| 57 | Temperature modelling of a biochip for DNA analysis |
Costa B.A., Lemos J.M., Piedade M.S., Sousa L., Almeida T., Germano J., Freitas P., Ferreira H., Cardoso F. |
|
| 58 | Characterisation and modelling of a magnetic biosensor |
Almeida T.M., Piedade M.S., Cardoso F., Ferreira H.A., Freitas P.P. |
|
| 59 | Measurements and modelling of a magnetoresistive biosensor |
Almeida T.M., Piedade M.S., Germano J., Lopes P.C., Sousa L., Cardoso F., Ferreira H., Freitas P. |
|
| 60 | CMOS integrated DNA microarray based on GMR sensors |
Han S.-J., Xu L., Yu H., Wilson R.J., White R.L., Pourmand N., Wang S.X. |
|
| 61 | Three-dimensional bochip microarray using magnetic force interaction and self-asswmbly |
Choi Y.-S., Moon J.-D., Kwon Y.-S., Lee K.-S. |
|
| 62 | A microfluidic filter biochip-based chemiluminescence biosensing method for detection of Escherichia coli O157:H7 |
Varshney M., Li Y., Srinivasan B., Tung S., Erf G.F., Slavik M.F., Ying Y., Fang W. |
|
| 63 | A new hand-held microsystem architecture for biological analysis |
Piedade M., Sousa L.A., de Almeida T.M., Germano J., da Costa B.A., Lemos J.M., Freitas P.P., Ferreira H.A., Cardoso F.A. |
|
| 64 | A DNA biochip for on-the-spot multiplexed pathogen identification |
Yeung S.-W., Lee T.M.-H., Cai H., Hsing I.-M. |
|
| 65 | Electrocardiogram on a chip: overview and first experiences of an electrocardiogram manufacturer of medium size |
Abacherli R., Braun F., Zhou L., Kraemer M., Felblinger J., Schmid H.-J. |
|
| 66 | Diode/magnetic tunnel junction cell for fully scalable matrix-based biochip |
Cardoso F.A., Ferreira H.A., Conde J.P., Chu V., Freitas P.P., Vidal D., Germano J., Sousa L., Piedade M.S., Costa B.A., Lemos J.M. |
|
| 67 | A method to obtain uniform magnetic-field energy density gradient distribution using discrete pole pieces for a microelectromechanical-system- based magnetic cell separator |
Nath P., Moore L.R., Zborowski M., Roy S., Fleischman A. |
|
| 68 | Electrical detection of DNA using gold and magnetic nanoparticles and bio bar-code DNA between nanogap electrodes |
Chang T.-L., Tsai C.-Y., Sun C.-C., Uppala R., Chen C.-C., Lin C.-H., Chen P.-H. |
|
| 69 | Microfluidics technology for manipulation and analysis of biological cells |
Yi C., Li C.-W., Ji S., Yang M. |
|
| 70 | State of the art and recent advances in immunoanalytical systems |
Marquette C.A., Blum L.J. |
|
| 71 | Ultrasensitive detection of nanoparticle-based bio bar-code DNA sensor by using nano-gap electrodes |
Chang T.-L., Tsai C.-Y., Uppala R., Chen C.-C., Lin C.-H., Chen P.-H. |
|
| 72 | Magnetic detection of spores |
Melnik K., Zborowski M., Fleischman A., Chalmers J. |
|
| 73 | Use of magnetoresistive biochips for monitoring of pathogenic microorganisms in water through bioprobes: Oligonucleotides and antibodies |
Martins V., Fonseca L.P., Ferreira H.A., Graham D.L., Freitas P.P., Cabral J.S. |
|
| 74 | Biochip microarray using magnetic force interaction and self-assembly |
Choi Y.-S., Lee K.-S., Park D.-H. |
|
| 75 | Detection of cystic fibrosis related DNA targets using AC field focusing of magnetic labels and spin-valve sensors |
Ferreira H.A., Graham D.L., Feliciano N., Clarke L.A., Amaral M.D., Freitas P.P. |
|
| 76 | Magnetic field-assisted DNA hybridisation and simultaneous detection using micron-sized spin-valve sensors and magnetic nanoparticles |
Graham D.L., Ferreira H.A., Feliciano N., Freitas P.P., Clarke L.A., Amaral M.D. |
|
| 77 | Effect of spin-valve sensor magnetostatic fields on nanobead detection for biochip applications |
Ferreira H.A., Feliciano N., Graham D.L., Freitas P.P. |
|
| 78 | Scanning electrochemical microscopy for detection of biosensor and biochip surfaces with immobilized pyrroloquinoline quinone (PQQ)-dependent glucose dehydrogenase as enzyme label |
Zhao C., Wittstock G. |
|