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Microfluidic Barcode Biochips for High-Throughput Real-Time Biomolecule and Single-Cell Screening: 《Engineering》2025年第3期130-146,共17页Jiaoyan Qiu Yanbo Liang Chao Wang Yang Yu Yu Zhang Hong Liu Lin Han; supported by the National Key Research and Development Plan of China(2023YFB3210400);the Natural Science Innovation Group Foundation of China(T2321004);the National Natural Science Foundation of China(62174101);Shandong University Integrated Research and Cultivation Project(2022JC001);Key Research and Development Plan of Shandong Province(Major Science and Technology Innovation Project;2022CXGC020501).; The real-time screening of biomolecules and single cells in biochips is extremely important for disease prediction and diagnosis,cellular analysis,and life science research.Barcode biochip technology,which is integrat...; 关键词：HIGH-THROUGHPUT Microfluidic barcode biochip Single-cell analysis Biomolecules

A deep-reinforcement learning approach for optimizing homogeneous droplet routing in digital microfluidic biochips: 《Nanotechnology and Precision Engineering》2023年第2期1-12,共12页Basudev Saha Bidyut Das Mukta Majumder; Over the past two decades,digital microfluidic biochips have been in much demand for safety-critical and biomedical applications and increasingly important in point-of-care analysis,drug discovery,and immunoassays,amo...; 关键词：Digital microfluidics BIOCHIP Droplet routing Fluidic constraints Deep learning Reinforcement learning

Biochips under COVID-19:a new stage of well-grounded development and accelerated translation被引量：3: 《Science Bulletin》2022年第18期1823-1826,共4页Jiajia Liu Youchun Xu Jing Cheng; supported by the National Natural Science Foundation of China(31870853 and 82161138004);Guangzhou Institute of Respiratory Health Open Project(funds provided by China Evergrande Group,2020GIRHHMS02);Emergency Key Program of Guangzhou Laboratory(EKPG21-14);Tsinghua University Spring Breeze Fund(20201080532);Beijing Nova Program 2020,and Beijing Lab Foundation。; Severe acute respiratory syndrome coronavirus 2(SARS-Co V-2)has placed a heavy burden on the global healthcare system,especially in developing and underdeveloped countries where professionals and specialized laborator...; 关键词：生物芯片 DRUGS ACUTE

Preface for advances in biochips: 《Advances in Biochips》2019年第1期1-1,共1页Zhenqing Li; Biochip is essentially a bio-microarray device that can perform hundreds or thousands of simultaneous biochemical reactions.[1, 2] It offers the researchers a new way for large-scale genomic, proteomic and functional ...; 关键词：BIOCHIPS BIOCHEMICAL REACTIONS BIOTERRORISM chemical AGENTS

Nanoscale 3D Printing Technique Uses Micro-Pyramids to Build Better Biochips: 《Chinese Journal of Biomedical Engineering(English Edition)》2018年第2期91-92,共2页; This nanoprinting process allows researchers to 3D print more material on a biochip than ever before,making it easier to study biomedical issues.Making biochips,a key technology in studying disease,just got a little e...; 关键词：Nanoscale 3D Printing Technique Uses Micro-Pyramids to Build Better Biochips

Evaluation of specific fecal protein biochips for the diagnosis of colorectal cancer被引量：1: 《World Journal of Gastroenterology》2014年第5期1332-1339,共8页Hui-Peng Wang Yang-Yun Wang Jie Pan Rong Cen Yuan-Kun Cai; Supported by The Government of Shanghai Minhang and The 5th People’s Hospital of Shanghai,Fudan University; AIM: To develop and initially test a potential fecal protein biochip for the screening of colorectal cancer (CRC).; 关键词：Protein biochip FECES Colorectal cancer Fibroblast growth factor-23 THROMBOPOIETIN

Numerical Study of the Evaporation Effects on the Microdroplet Dynamics in Digital Microfluidic Biochips: 《Journal of Mechanics Engineering and Automation》2011年第5期401-406,共6页Ali Ahmadi Matt Dale Buat Mina Hoorfar; In this paper, an electrohydrodynamic approach is used to model and study dynamics of evaporating microdroplets in digital microfluidic systems. A numerical eleetrohydrodynamic approach is used to calculate the drivin...; 关键词：Digital microfluidic MICRODROPLET EVAPORATION electrohydrodynamic.

MODELING,SIMULATION,AND OPTIMIZATION OF SURFACE ACOUSTIC WAVE DRIVEN MICROFLUIDIC BIOCHIPS: 《Journal of Computational Mathematics》2010年第2期149-169,共21页Harbir Antil Roland Glowinski Ronald H.W.Hoppe Christopher Linsenmann Tsorng-Whay Pan Achim Wixforth; support by the NSF under Grants No. DMS-0511611, DMS-0707602, DMS-0810156, DMS-0811153;by the German National Science Foundation DFG within the Priority Program SPP 1253; We will be concerned with the mathematical modeling, numerical simulation, and shape optimization of micro fluidic biochips that are used for various biomedical applications. A particular feature is that the fluid flo...; 关键词：Microfluidic biochips Mathematical modeling Numerical simulation Shape optimization MULTIPHYSICS Multiscale problems.

New Progress in Gold-Nanoparticle-Based Biochips: 《Science Foundation in China》2009年第1期30-30,共1页; supported by the National Natural Science Fund,the H undred Talents Program of the Chinese Academy of Sciences,the Fund of Chinese Academy of Sciences for Key Topics in Knowledge Innovation Project,and the Bayer Group of Germany respectively; A significant progress in the research on the application of gold nanoparticles in biochips has recently been obtained by the research team led by Prof.Wang Zhenxin at Changchun Institute of Applied Chemistry, Chinese...; 关键词：金纳米粒子生物芯片中国科学院基础应用化学生物传感器学术期刊生物电子

A novel strategy for in situ maskless synthesis of biochips:Self-driving micro-fluid porous type printing (SMPTP): 《Chinese Chemical Letters》2007年第1期111-114,共4页Nong Yue He Ya Fei Guo Song Li Jian-Xin Tang; A novel maskless technique, self-driving micro-fluid porous type printing （SMPTP）, was reported to in situ synthesize oligonucleotide arrays on glass slide, which has the merits of low cost, high quality and simple ...; 关键词：TYPOGRAPHY OLIGONUCLEOTIDE In situ synthesis DNA microarrays BIOCHIPS

BIOCHIPS