Multiple virus sorting based on aptamer-modified microspheres in a TSAW device

[1]  X. Wang,et al.  Recent advances in acoustofluidic separation technology in biology , 2022, Microsystems & nanoengineering.

[2]  T. Huang,et al.  Acoustofluidics for biomedical applications , 2022, Nature Reviews Methods Primers.

[3]  H. Sung,et al.  Acoustofluidic Separation of Proteins Using Aptamer-Functionalized Microparticles. , 2021, Analytical chemistry.

[4]  Hongyuan Jiang,et al.  Label-Free Multitarget Separation of Particles and Cells under Flow Using Acoustic, Electrophoretic, and Hydrodynamic Forces. , 2021, Analytical chemistry.

[5]  T. Huang,et al.  Acoustofluidic separation enables early diagnosis of traumatic brain injury based on circulating exosomes , 2021, Microsystems & nanoengineering.

[6]  Zhuangde Jiang,et al.  Fluorescent labeling based acoustofluidic screening of Japanese encephalitis virus , 2020 .

[7]  Yi Ning,et al.  Aptamers used for biosensors and targeted therapy , 2020, Biomedicine & Pharmacotherapy.

[8]  Jie Xu,et al.  Acoustic Microfluidic Separation Techniques and Bioapplications: A Review , 2020, Micromachines.

[9]  W. Knoll,et al.  Reduced graphene oxide–based field effect transistors for the detection of E7 protein of human papillomavirus in saliva , 2020, Analytical and Bioanalytical Chemistry.

[10]  M. Tabib-Azar,et al.  Whole virus detection using aptamers and paper‐based sensor potentiometry , 2020, Medical devices & sensors.

[11]  H. Harapan,et al.  Dengue: A Minireview , 2020, Viruses.

[12]  Charles S. Henry,et al.  Review—Chemical and Biological Sensors for Viral Detection , 2019, Journal of the Electrochemical Society.

[13]  Harwood Fisher The Structural View , 2020 .

[14]  T. Huang,et al.  Acoustofluidic Salivary Exosome Isolation: A Liquid Biopsy Compatible Approach for Human Papillomavirus-Associated Oropharyngeal Cancer Detection. , 2019, The Journal of molecular diagnostics : JMD.

[15]  Joseph Rufo,et al.  Acoustofluidic separation of cells and particles , 2019, Microsystems & nanoengineering.

[16]  B. Crulhas,et al.  A new immunoassay of hybrid nanomater conjugated to aptamers for the detection of dengue virus. , 2019, Talanta.

[17]  Ho Cheung Shum,et al.  Microfluidic Technology for Nucleic Acid Aptamer Evolution and Application , 2019, Advanced biosystems.

[18]  Po-Hsun Huang,et al.  Separating extracellular vesicles and lipoproteins via acoustofluidics. , 2019, Lab on a chip.

[19]  Qingping Wu,et al.  Development and evaluation of a novel in situ target-capture approach for aptamer selection of human noroviruses. , 2019, Talanta.

[20]  K. Yoshii Epidemiology and pathological mechanisms of tick-borne encephalitis , 2019, The Journal of veterinary medical science.

[21]  Subra Suresh,et al.  Circulating Tumor Cell Phenotyping via High-Throughput Acoustic Separation. , 2018, Small.

[22]  S. Butcher,et al.  Tick-Borne Encephalitis Virus: A Structural View , 2018, Viruses.

[23]  Thomas Laurell,et al.  Acoustic Enrichment of Extracellular Vesicles from Biological Fluids. , 2018, Analytical chemistry.

[24]  Ji Hoon Lee,et al.  Non‐stop aptasensor capable of rapidly monitoring norovirus in a sample , 2018, Journal of pharmaceutical and biomedical analysis.

[25]  Hang Gong,et al.  Sensitive detection of Japanese encephalitis virus by surface molecularly imprinted technique based on fluorescent method , 2018 .

[26]  A. Archakov,et al.  The detection of hepatitis c virus core antigen using afm chips with immobolized aptamers. , 2018, Journal of virological methods.

[27]  Suresh Neethirajan,et al.  Microfluidic platform integrated with graphene-gold nano-composite aptasensor for one-step detection of norovirus. , 2017, Biosensors & bioelectronics.

[28]  Jin Ho Jung,et al.  Acoustic Wave-Driven Functionalized Particles for Aptamer-Based Target Biomolecule Separation. , 2017, Analytical chemistry.

[29]  Huaqiang Zeng,et al.  Aptamer-Based ELISA Assay for Highly Specific and Sensitive Detection of Zika NS1 Protein. , 2017, Analytical chemistry.

[30]  M. Roushani,et al.  Ultra-sensitive aptasensor based on a GQD nanocomposite for detection of hepatitis C virus core antigen. , 2017, Analytical biochemistry.

[31]  S. Best Flaviviruses , 2016, Current Biology.

[32]  Yan Deng,et al.  Fluorescence based Aptasensors for the determination of hepatitis B virus e antigen , 2016, Scientific Reports.

[33]  W. Duan,et al.  Aptamers: A promising chemical antibody for cancer therapy , 2016, Oncotarget.

[34]  N. Janjić,et al.  Embracing proteins: structural themes in aptamer-protein complexes. , 2016, Current opinion in structural biology.

[35]  Patrick Hunziker,et al.  Diagnosing dengue virus infection: rapid tests and the role of micro/nanotechnologies. , 2015, Nanomedicine : nanotechnology, biology, and medicine.

[36]  Suh-Chin Wu,et al.  Selection and Characterization of DNA Aptamers Targeting All Four Serotypes of Dengue Viruses , 2015, PloS one.

[37]  Jin Ho Jung,et al.  Submicron separation of microspheres via travelling surface acoustic waves. , 2014, Lab on a chip.

[38]  Y. Zu,et al.  Oligonucleotide Aptamers: New Tools for Targeted Cancer Therapy , 2014, Molecular therapy. Nucleic acids.

[39]  Rodrigo Martinez-Duarte,et al.  Dielectrophoresis-based purification of antibiotic-treated bacterial subpopulations. , 2014, Lab on a chip.

[40]  Anas Alazzam,et al.  Continuous separation of particles in a PDMS microfluidic channel via travelling surface acoustic waves (TSAW). , 2013, Lab on a chip.

[41]  John S. Lee,et al.  Development, screening, and analysis of DNA aptamer libraries potentially useful for diagnosis and passive immunity of arboviruses , 2012, BMC Research Notes.

[42]  Nicole K Henderson-Maclennan,et al.  Deformability-based cell classification and enrichment using inertial microfluidics. , 2011, Lab on a chip.

[43]  A. S. Milligan,et al.  Toward specific detection of Dengue virus serotypes using a novel modular biosensor. , 2010, Biosensors & bioelectronics.

[44]  Mehmet Toner,et al.  Concentration and purification of human immunodeficiency virus type 1 virions by microfluidic separation of superparamagnetic nanoparticles. , 2010, Analytical chemistry.

[45]  Weihong Tan,et al.  Aptamer-based microfluidic device for enrichment, sorting, and detection of multiple cancer cells. , 2009, Analytical chemistry.

[46]  S. Sankaranarayanan,et al.  Design of efficient focused surface acoustic wave devices for potential microfluidic applications , 2008 .

[47]  Kristen L. Helton,et al.  Microfluidic Overview of Global Health Issues Microfluidic Diagnostic Technologies for Global Public Health , 2006 .

[48]  Michael Zuker,et al.  Mfold web server for nucleic acid folding and hybridization prediction , 2003, Nucleic Acids Res..

[49]  L. Gold,et al.  Systematic evolution of ligands by exponential enrichment: RNA ligands to bacteriophage T4 DNA polymerase. , 1990, Science.

[50]  Robert C. Wolpert,et al.  A Review of the , 1985 .

[51]  T. Huang,et al.  Acoustofluidic Salivary Exosome Isolation , 2022 .