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Funded doctoral research announcement outlining an academic–industry collaborative project on automated paper-based microfluidic diagnostic platforms for rapid antigen detection of COVID-19 and influenza within a joint programme between XJTLU and the University of Liverpool.
Institution:
Xi’an Jiaotong-Liverpool University, China
School:
School of Advanced Technology
Project Title:
Paper-based microfluidic devices for point-of-care disease diagnosis 全自动、快速微流控纸基生物传感器的研究与开发
Supervisors:
Dr. Pengfei Song (Principal Supervisor, XJTLU); Dr. Chunfeng Yue (JITRI); Dr. Kai Hoettges (University of Liverpool)
Degree Awarding Body:
University of Liverpool, United Kingdom
Funding Type:
Funded PhD project
Funding Coverage:
Tuition fees for three years (RMB 80,000 per annum) and monthly living allowance of RMB 3000 during research at Micro-Nano Automation Institute
Duration:
Three years (subject to satisfactory progress)
Application Deadline:
Open until the position is filled
Location of Research:
Suzhou, China
Collaborating Institutions:
XJTLU and Jiangsu Industrial Technology Research Institute (Micro-Nano Automation Institute)
Research Field:
Paper-based microfluidics; point-of-care diagnostics; biomedical engineering
Project Focus:
Development of automated μPAD platform for rapid detection of COVID-19 and influenza antigen markers
Eligibility Criteria:
First class or upper second class honours degree or master’s degree in relevant engineering disciplines
English Language Requirement:
IELTS 6.5 or above (if first language is not English)
Application Materials:
CV; two reference letters; personal statement; proof of English proficiency; verified transcripts and certificates; Master’s dissertation or equivalent writing sample
Price: 8 / 10 USD
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Year:
2017
Region / City:
United States
Theme:
Education / Student Evaluation
Document Type:
Research Study
Author:
Claudia J. Stanny
Target Audience:
Educators, Administrators, Researchers in Education
Period of Action:
2017-2019
Approval Date:
N/A
Date of Changes:
N/A
Document type:
Electronic supporting information
Scientific field:
Analytical chemistry
Research topic:
Microfluidic paper-based analytical devices
Authors:
Michael P. Nguyen; Nathan A. Meredith; Sydney P. Kelly; Charles S. Henry
Corresponding author:
Charles S. Henry
Author affiliation:
Department of Chemistry, Colorado State University, Fort Collins, CO, United States
Note:
Author affiliation
Department of Chemistry, University of Central Arkansas, Conway, AR, United States
Institution:
Colorado State University
Content elements:
Device diagram and experimental comparison figures
Figures included:
Figure S1 Diagram of paper device; Figure S2 Plot comparing intensity of Ni(dmg)2 on different paper types (W4Qual, W1Qual, W1Chr); Figure S3 Comparison of small inlet design with circular inlet of the standard device; Figure S4 Comparison of standard test and additive test with Mn(PAR)2
Chemical compounds referenced:
Ni(dmg)2; Mn(PAR)2
Country:
United States
Year:
FY 2017 and subsequent years
Hospital Name:
Provided in form
CCN:
Provided in form
Measure:
External Beam Radiotherapy for Bone Metastases (NQF 1822)
Numerator Definition:
Patients with painful bone metastases, no prior radiation to same site, receiving EBRT with recommended fractionation
Denominator Definition:
All patients with painful bone metastases and no prior radiation to same site receiving EBRT
Submission Method:
Email to [email protected]
PRA Control Number:
0938-1175
Estimated Completion Time:
10 minutes per response
Governing Act:
Paperwork Reduction Act of 1995
Reference:
National Quality Forum website http://www.qualityforum.org/QPS/1822
Document type:
Electronic supporting information
Scientific field:
Analytical chemistry
Research topic:
Microfluidic paper-based analytical devices
Authors:
Michael P. Nguyen; Nathan A. Meredith; Sydney P. Kelly; Charles S. Henry
Corresponding author:
Charles S. Henry
Author affiliation:
Department of Chemistry, Colorado State University, Fort Collins, CO, United States
Note:
Author affiliation
Department of Chemistry, University of Central Arkansas, Conway, AR, United States
Institution:
Colorado State University
Content elements:
Device diagram and experimental comparison figures
Figures included:
Figure S1 Diagram of paper device; Figure S2 Plot comparing intensity of Ni(dmg)2 on different paper types (W4Qual, W1Qual, W1Chr); Figure S3 Comparison of small inlet design with circular inlet of the standard device; Figure S4 Comparison of standard test and additive test with Mn(PAR)2
Chemical compounds referenced:
Ni(dmg)2; Mn(PAR)2
Country:
United States
Year:
2026
Region / City:
Dublin, Ireland; Southampton, United Kingdom
Topic:
pH sensor, microfluidics, reagent-based sensing
Document type:
Research paper
Organization:
National Centre for Sensor Research, Dublin City University; National Oceanography Centre, University of Southampton
Author:
Isabel M. Perez de Vargas Sansalvador, Cormac D. Fay, John Cleary, Adrian Nightingale, Matthew Mowlem, Dermot Diamond
Target audience:
Researchers in sensor technology and microfluidics
Period of validity:
Not specified
Date of approval:
Not specified
Date of changes:
Not specified
Note:
Year
Topic:
HIV Diagnosis, Linkage to Care, and Prevention Services
Document Type:
Guide
Organization / Institution:
CDC
Target Audience:
HIV-positive individuals who participated in the GAIN study
Year:
2026
Region / City:
Canberra, Australia
Subject:
Blood glucose and ketone point-of-care testing
Document Type:
Procedure
Organization:
Canberra Health Services (CHS)
Intended Users:
Medical Officers, Nurses and Midwives, Allied Health Professionals, Students under supervision
Equipment:
Nova Statstrip XpressTM meter
Scope:
Inpatient facilities and community services of CHS Network
Compliance:
Internal Quality Control, External Quality Assurance Programme (EQAP)
Safety Measures:
Standard precautions and infection control procedures
Record Keeping:
Quality Control Logbook, EQAP reports retention
Year:
N/A
Region / City:
N/A
Topic:
HIV Diagnosis, HIV Prevention
Document Type:
Survey
Organization / Institution:
CDC
Author:
N/A
Target Audience:
Participants of the GAIN Study
Effective Period:
N/A
Approval Date:
N/A
Date of Changes:
N/A
Year:
2026
Region:
Not specified
Document type:
Supplementary material / Research data
Methods:
LC-MS/MS, IP–HILIC–MS/MS
Analytes:
Tenofovir (TFV), Tenofovir-diphosphate (TFV-DP)
Sample types:
Urine, Dried Blood Spots (DBS)
Target population:
Participants on antiretroviral therapy (ART)
Measured variables:
Urine TFV concentration, DBS TFV-DP concentration, POC TFV results, self-reported adherence, viral load, drug resistance
Instrument:
Agilent HPLC coupled to AB Sciex 5500 triple quadrupole mass spectrometer
Software:
Analyst v1.6.2
Detection method:
Negative-ion multiple reaction monitoring (MRM)
Tables included:
S1, S2, S3, S4
Year:
2013
Region / City:
International
Subject:
Veterinary clinical pathology; Point-of-care testing quality assurance
Document Type:
Guideline / Compliance checklist
Organization:
American Society for Veterinary Clinical Pathology (ASVCP)
Authors:
Bente Flatland, Kathleen P. Freeman, Linda M. Vap, Kendal E. Harr
Target Audience:
Veterinary laboratories, clinical pathologists, veterinary diagnostic personnel
Version:
1.0
Date of Publication:
May 2013
Reference Links:
www.asvcp.org