Advances in microfluidic-based DNA methylation analysis

1

作者 Jiwen Li Tiechuan Li xuexin duan 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2024年第1期116-134,共19页

DNA methylation has been extensively investigated in recent years,not least because of its known relationship with various diseases.Progress in analytical methods can greatly increase the relevance of DNA methylation ... DNA methylation has been extensively investigated in recent years,not least because of its known relationship with various diseases.Progress in analytical methods can greatly increase the relevance of DNA methylation studies to both clinical medicine and scientific research.Microflu-idic chips are excellent carriers for molecular analysis,and their use can provide improvements from multiple aspects.On-chip molecular analysis has received extensive attention owing to its advantages of portability,high throughput,low cost,and high efficiency.In recent years,the use of novel microfluidic chips for DNA methylation analysis has been widely reported and has shown obvious superiority to conventional methods.In this review,wefirst focus on DNA methylation and its applications.Then,we discuss advanced microfluidic-based methods for DNA methylation analysis and describe the great progress that has been made in recent years.Finally,we summarize the advantages that microfluidic technology brings to DNA methylation analysis and describe several challenges and perspectives for on-chip DNA methylation analysis.This review should help researchers improve their understanding and make progress in developing microfluidic-based methods for DNA methylation analysis. 展开更多

关键词 Microfluidic chip DNA methylation analysis Molecular analysis High throughput Low cost

下载PDF 职称材料

Nanostructure enabled extracellular vesicles separation and detection

2

作者 Xinyuan He Wei Wei xuexin duan 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2023年第4期98-120,共23页

Extracellular vesicles(EVs)have recently attracted significant research attention owing to their important biological functions,including cell-to-cell communication.EVs are a type of membrane vesicles that are secrete... Extracellular vesicles(EVs)have recently attracted significant research attention owing to their important biological functions,including cell-to-cell communication.EVs are a type of membrane vesicles that are secreted into the extracellular space by most types of cells.Several biological biomolecules found in EVs,such as proteins,microRNA,and DNA,are closely related to the pathogenesis of human malignancies,making EVs valuable biomarkers for disease diagnosis,treatment,and prognosis.Therefore,EV separation and detection are prerequisites for providing important information for clinical research.Conventional separation methods suffer from low levels of purity,as well as the need for cumbersome and prolonged operations.Moreover,detection methods require trained operators and present challenges such as high operational expenses and low sensitivity and specificity.In the past decade,platforms for EV separation and detection based on nanostructures have emerged.This article reviews recent advances in nanostructure-based EV separation and detection techniques.First,nanostructures based on membranes,nanowires,nanoscale deterministic lateral displacement,and surface modification are presented.Second,high-throughput separation of EVs based on nanostructures combined with acoustic and electric fields is described.Third,techniques combining nanostructures with immunofluorescence,surface plasmon resonance,surface-enhanced Raman scattering,electrochemical detection,or piezoelectric sensors for high-precision EV analysis are summarized.Finally,the potential of nanostructures to detect individual EVs is explored,with the aim of providing insights into the further development of nanostructure-based EV separation and detection techniques. 展开更多

关键词 NANOSTRUCTURE Extracellular vesicle SEPARATION DETECTION INDIVIDUAL

下载PDF 职称材料

Tunable microfluidic chip for single-cell deformation study

3

作者 Ruiyun Zhang xuexin duan +3 位作者 Shuaihua Zhang Wenlan Guo Chen Sun Ziyu Han 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2023年第2期25-32,共8页

Microfluidic phenotyping methods have been of vital importance for cellular characterization,especially for evaluating single cells.In order to study the deformability of a single cell,we devised and tested a tunable ... Microfluidic phenotyping methods have been of vital importance for cellular characterization,especially for evaluating single cells.In order to study the deformability of a single cell,we devised and tested a tunable microfluidic chip-based method.A pneumatic polymer polydimethylsiloxane(PDMS)membrane was designed and fabricated abutting a single-cell trapping structure,so the cell could be squeezed controllably in a lateral direction.Cell contour changes under increasing pressure were recorded,enabling the deformation degree of different types of single cell to be analyzed and compared using computer vision.This provides a new perspective for studying mechanical properties of cells at the single cell level. 展开更多

关键词 MICROFLUIDICS Cell deformation Single cell Computer vision

下载PDF 职称材料

State-of-the-art and recent developments in micro/nanoscale pressure sensors for smart wearable devices and health monitoring systems 被引量：3

4

作者 Ye Chang Jingjing Zuo +1 位作者 Hainan Zhang xuexin duan 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2020年第1期43-52,共10页

Small-sized,low-cost,and high-sensitivity sensors are required for pressure-sensing applications because of their critical role in consumer electronics,automotive applications,and industrial environments.Thus,micro/na... Small-sized,low-cost,and high-sensitivity sensors are required for pressure-sensing applications because of their critical role in consumer electronics,automotive applications,and industrial environments.Thus,micro/nanoscale pressure sensors based on micro/nanofabrication and micro/nanoelectromechanical system technologies have emerged as a promising class of pressure sensors on account of their remarkable miniaturization and performance.These sensors have recently been developed to feature multifunctionality and applicability to novel scenarios,such as smart wearable devices and health monitoring systems.In this review,we summarize the major sensing principles used in micro/nanoscale pressure sensors and discuss recent progress in the development of four major categories of these sensors,namely,novel material-based,flexible,implantable,and selfpowered pressure sensors. 展开更多

关键词 M/NEMS Pressure SENSOR Flexible SENSOR PIEZORESISTIVE SENSOR Capacitive SENSOR Piezoelectric SENSOR Resonant SENSOR 2D material

下载PDF 职称材料

Theoretical and experimental characterizations of gigahertz acoustic streaming in microscale fluids 被引量：2

5

作者 Weiwei Cui Wei Pang +2 位作者 Yang Yang Tiechuan Li xuexin duan 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2019年第1期15-22,共8页

Even as gigahertz(GHz) acoustic streaming has developed into a multi-functional platform technology for biochemical applications, including ultrafast microfluidic mixing, microparticle operations, and cellar or vesicl... Even as gigahertz(GHz) acoustic streaming has developed into a multi-functional platform technology for biochemical applications, including ultrafast microfluidic mixing, microparticle operations, and cellar or vesicle surgery, its theoretical principles have yet to be established. This is because few studies have been conducted on the use of such high frequency acoustics in microscale fluids. Another difficulty is the lack of velocimetry methods for microscale and nanoscale fluidic streaming. In this work, we focus on the basic aspects of GHz acoustic streaming,including its micro-vortex generation principles, theoretical model, and experimental characterization technologies. We present details of a weak-coupled finite simulation that represents our current understanding of the GHz-acoustic-streaming phenomenon. Both our simulation and experimental results show that the GHzacoustic-induced interfacial body force plays a determinative role in vortex generation. We carefully studied changes in the formation of GHz acoustic streaming at different acoustic powers and flow rates. In particular,we developed a microfluidic-particle-image velocimetry method that enables the quantification of streaming at the microscale and even nanoscale. This work provides a full map of GHz acoustofluidics and highlights the way to further theoretical study of this topic. 展开更多

关键词 Acoustic STREAMING Gigahertz BODY force Microfluidic PIV

下载PDF 职称材料

Recent advances in micro/nanoscale intracellular delivery 被引量：1

6

作者 Mengjie Sun xuexin duan 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2020年第1期18-31,共14页

Intracellular delivery enables the efficient drug delivery into various types of cells and has been a long-term studied topics in modern biotechnology.Targeted delivery with improved delivery efficacy requires conside... Intracellular delivery enables the efficient drug delivery into various types of cells and has been a long-term studied topics in modern biotechnology.Targeted delivery with improved delivery efficacy requires considerable requirements.This process is a critical step in many cellular-level studies,such as cellular drug therapy,gene editing delivery,and a series of biomedical research applications.The emergence of micro-and nanotechnology has enabled themore accurate and dedicated intracellular delivery,and it is expected to be the next generation of controlled delivery with unprecedented flexibility.This review focuses on several represented micro-and nanoscale physical approaches for cell membrane disruption-based intracellular delivery and discusses the mechanisms,advantages,and challenges of each approach.We believe that the deeper understanding of intracellular delivery at such lowdimensionwould help the research community to develop more powerful delivery technologies for biomedical applications. 展开更多

关键词 DRUG delivery Physical APPROACHES Cell MEMBRANE DISRUPTION Low DIMENSION

下载PDF 职称材料

Manipulations of micro/nanoparticles using gigahertz acoustic streaming tweezers 被引量：1

7

作者 Hang Wu Zifan Tang +8 位作者 Rui You Shuting Pan Wenpeng Liu Hongxiang Zhang Tiechuan Li Yang Yang Chongling Sun Wei Pang xuexin duan 《Nanotechnology and Precision Engineering》 CAS CSCD 2022年第2期1-11,共11页

Contactless acoustic manipulation of micro/nanoscale particles has attracted considerable attention owing to its near independence of the physical and chemical properties of the targets,making it universally applicabl... Contactless acoustic manipulation of micro/nanoscale particles has attracted considerable attention owing to its near independence of the physical and chemical properties of the targets,making it universally applicable to almost all biological systems.Thin-film bulk acoustic wave(BAW)resonators operating at gigahertz(GHz)frequencies have been demonstrated to generate localized high-speed microvortices through acoustic streaming effects.Benefitting from the strong drag forces of the high-speed vortices,BAW-enabled GHz acoustic streaming tweezers(AST)have been applied to the trapping and enrichment of particles ranging in size from micrometers to less than 100 nm.However,the behavior of particles in such 3D microvortex systems is still largely unknown.In this work,the particle behavior(trapping,enrichment,and separation)in GHz AST is studied by theoretical analyses,3D simulations,and microparticle tracking experiments.It is found that the particle motion in the vortices is determined mainly by the balance between the acoustic streaming drag force and the acoustic radiation force.This work can provide basic design principles for AST-based lab-on-a-chip systems for a variety of applications. 展开更多

关键词 Acoustofluidics Bulk acoustic wave resonator Acoustic streaming Acoustic tweezers Particle manipulation

下载PDF 职称材料

A combined virtual impactor and field-effect transistor microsystem for particulate matter separation and detection 被引量：1

8

作者 Yanna Li Muqing Fu +2 位作者 Wei Pang Ye Chang xuexin duan 《Nanotechnology and Precision Engineering》 CAS CSCD 2021年第1期17-25,共9页

Ambient suspended particulate matter(PM)(primarily with particle diameter 2.5m or less,i.e.,PM2.5)can adversely affect ecosystems and human health.Currently,optical particle sensors based on light scattering dominate... Ambient suspended particulate matter(PM)(primarily with particle diameter 2.5m or less,i.e.,PM2.5)can adversely affect ecosystems and human health.Currently,optical particle sensors based on light scattering dominate the portable PM sensing market.However,the light scattering method has poor adaptability to different-sized PM and adverse environmental conditions.Here,we design and develop a portable PM sensing microsystem that consists of a micromachined virtual impactor(VI)for particle separation,a thermophoretic deposition chip for particle collection,and an extended-gate field-effect transistor(FET)for particle analysis.This system can realize on-site separation,collection,and analysis of aerosol particles without being influenced by environmental factors.In this study,the design of the VI is thoroughly analyzed by numerical simulation,and mixtures of different-sized silicon dioxide(SiO2)particles are used in an experimental verification of the performance of the VI and FET.Considering the low cost and compact design of the whole system,the proposed PM analysis microsystem has potential for PM detection under a wide range of conditions,such as heavily polluted industrial environments and for point-of-need outdoor and indoor air quality monitoring. 展开更多

关键词 Particulate matter MICROSYSTEM Virtual impactor 50%cutoff diameter Field-effect transistor

下载PDF 职称材料

PEDOT:PSS:From conductive polymers to sensors

9

作者 Xiaoshuang Zhang Wentuo Yang +2 位作者 Hainan Zhang Mengying Xie xuexin duan 《Nanotechnology and Precision Engineering》 CAS CSCD 2021年第4期89-107,共19页

PEDOT:PSS conductive polymers have received tremendous attention over the last two decades owing to their high conductivity,ease of processing,and biocompatibility.As a flexible versatile material,PEDOT:PSS can be dev... PEDOT:PSS conductive polymers have received tremendous attention over the last two decades owing to their high conductivity,ease of processing,and biocompatibility.As a flexible versatile material,PEDOT:PSS can be developed into various forms and has had a significant impact on emerging sensing applications.This review covers the development of PEDOT:PSS from material to physical sensors.We focus on the morphology of PEDOT:PSS in the forms of aqueous dispersions,solid films,and hydrogels.Manufacturing processes are summarized,including coating,printing,and lithography,and there is particular emphasis on nanoimprinting lithography that enables the production of PEDOT:PSS nanowires with superior sensing performance.Applications to various physical sensors,for humidity,temperature,pressure,and strain,are demonstrated.Finally,we discuss the challenges and propose new directions for the development of PEDOT:PSS. 展开更多

关键词 PEDOT:PSS Conductive polymer SENSOR Physical sensor Manufacturing process MORPHOLOGY

下载PDF 职称材料

A prototype portable instrument employing micro-preconcentrator and FBAR sensor for the detection of chemical warfare agents

10

作者 Xu Yan Hemi Qu +2 位作者 Ye Chang Wei Pang xuexin duan 《Nanotechnology and Precision Engineering》 CAS CSCD 2022年第1期43-48,共6页

The presence of chemical warfare agents(CWAs)in the environment is a serious threat to human safety,but there are many problems with the currently available detection methods for CWAs.For example,gas chromatography–m... The presence of chemical warfare agents(CWAs)in the environment is a serious threat to human safety,but there are many problems with the currently available detection methods for CWAs.For example,gas chromatography–mass spectrometry cannot be used for in-field detection owing to the rather large size of the equipment required,while commercial sensors have the disadvantages of low sensitivity and poor selectivity.Here,we develop a portable gas sensing instrument for CWA detection that consists of a MEMSfabricated micro-preconcentrator(μPC)and a film bulk acoustic resonator(FBAR)gas sensor.The μPC is coated with a nanoporous metal–organic framework material to enrich the target,while the FBAR provides rapid detection without the need for extra carrier gas.Dimethyl methylphosphonate(DMMP),a simulant of the chemical warfare agent sarin,is used to test the performance of the instrument.Experimental results show that the μPC provides effective sample pretreatment,while the FBAR gas sensor has good sensitivity to DMMP vapor.The combination of μPC and FBAR in one instrument gives full play to their respective advantages,reducing the limit of detection of the analyte.Moreover,both the μPC and the FBAR are fabricated using a CMOS-compatible approach,and the prototype instrument is compact in size with high portability and thus has potential for application to in-field detection of CWAs. 展开更多

关键词 Micro-preconcentrator Film bulk acoustic resonator Chemical warfare agent Microelectromechanical system

下载PDF 职称材料

可用于微型气相色谱仪的微型检测器研究进展（英文） 被引量：4

11

作者 屈贺幂 段学欣 《Science China Materials》 SCIE EI CSCD 2019年第5期611-623,共13页

近年来,随着安全、环境、医疗卫生等领域现场分析需求的不断增长,分析仪器的微型化研究也日益迫切与重要.微型气相色谱仪具有体积小、功耗低及制作和维护成本低等诸多优点,被认为在提供有效的现场气体分析解决方案方面具有巨大潜力.自... 近年来,随着安全、环境、医疗卫生等领域现场分析需求的不断增长,分析仪器的微型化研究也日益迫切与重要.微型气相色谱仪具有体积小、功耗低及制作和维护成本低等诸多优点,被认为在提供有效的现场气体分析解决方案方面具有巨大潜力.自上世纪以来,该领域研究一直受到研究人员的广泛关注.本文中,我们将首先简要介绍微型气相色谱仪,然后着重对可用于微型气相色谱的微型检测器的最新研究进展进行总结.这些进展包括常规检测器的小型化研究和新型微气相色谱检测器的研究. 展开更多

关键词 气相色谱检测器 气相色谱仪 微型化 微型气相色谱 现场分析 医疗卫生 分析仪器 维护成本

原文传递

Manipulation of single cells via a Stereo Acoustic Streaming Tunnel(SteAST)

12

作者 Yang Yang Wei Pang +7 位作者 Hongxiang Zhang Weiwei Cui Ke Jin Chongling Sun Yanyan Wang Lin Zhang Xiubao Ren xuexin duan 《Microsystems & Nanoengineering》 SCIE EI CSCD 2022年第4期165-182,共18页

At the single-cell level,cellular parameters,gene expression and cellular function are assayed on an individual but not population-average basis.Essential to observing and analyzing the heterogeneity and behavior of t... At the single-cell level,cellular parameters,gene expression and cellular function are assayed on an individual but not population-average basis.Essential to observing and analyzing the heterogeneity and behavior of these cells/clusters is the ability to prepare and manipulate individuals.Here,we demonstrate a versatile microsystem,a stereo acoustic streaming tunnel,which is triggered by ultrahigh-frequency bulk acoustic waves and highly confined by a microchannel.We thoroughly analyze the generation and features of stereo acoustic streaming to develop a virtual tunnel for observation,pretreatment and analysis of cells for different single-cell applications.3D reconstruction,dissociation of clusters,selective trapping/release,in situ analysis and pairing of single cells with barcode gel beads were demonstrated.To further verify the reliability and robustness of this technology in complex biosamples,the separation of circulating tumor cells from undiluted blood based on properties of both physics and immunity was achieved.With the rich selection of handling modes,the platform has the potential to be a full-process microsystem,from pretreatment to analysis,and used in numerous fields,such as in vitro diagnosis,high-throughput single-cell sequencing and drug development. 展开更多

关键词 IMMUNITY STREAMING STEREO

原文传递