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Research article describing experimental results on nanoporous metallic membranes printed for selective biomolecule passage and enhanced stem cell viability, showing in vitro and in vivo effects on inflammation and vascularization.
Year:
2026
Region / City:
Mansfield, MA, USA; Tianjin, China
Topic:
Stem cell delivery, biomaterials, nanotechnology
Document Type:
Research article
Institution:
NanoVault, Hebei University of Technology
Author:
Thomas J. Webster
Target Audience:
Biomedical researchers, material scientists
Methods:
Additive manufacturing of metal nanoporous membranes, in vitro and in vivo studies
Key Findings:
Controlled nanopore size, inhibition of IgG, promotion of neovascularization, selective biomolecule passage
Funding:
NanoVault, Inc.
Applications:
Diabetes treatment, stem cell transplantation
Price: 8 / 10 USD
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2022
Region / City:
Birmingham, Oxford
Theme:
Acoustic Research
Document Type:
Research Report
Institution:
University of Birmingham, University of Oxford
Author:
Yueting Sun, Jason Raymond, James Kwan
Target Audience:
Acoustic researchers, material scientists, industrial partners
Duration:
8 months
Approval Date:
1st May 2022
Date of Changes:
N/A
Note:
Year
Document Type:
Safety Data Sheet
Organization / Institution:
Bundesanstalt für Materialforschung und -prüfung (BAM), National Institute of Standards and Technology (NIST)
Target Audience:
Research and development professionals
Year:
2021
Region / city:
Noordwijk, The Netherlands
Topic:
Space product assurance, metallic powder bed fusion technologies
Document type:
Standard
Organization / institution:
European Space Agency (ESA)
Author:
ECSS-Q-ST-70-80C Working Group
Target audience:
Space industry professionals
Effective period:
N/A
Approval date:
N/A
Amendment date:
N/A
Series:
Review My Learning
Subject:
Chemistry
Topic:
Metallic bonding
Educational level:
14–16 specifications
Type of document:
Teacher guidance and answer key
Organisation:
Royal Society of Chemistry
Publisher:
Royal Society of Chemistry
Components:
Worksheet overview, model answers, guidance on misconceptions
Assessment focus:
Interpreting diagrams, electrostatic forces, delocalised electrons, electrical conductivity
Intended audience:
Teachers and non-subject specialists
Associated materials:
Metallic Bonding worksheet, Bonding worksheets
Scope:
Single-level scaffolded worksheet with extension tasks
Year:
2020
Region / city:
Hampton, VA
Topic:
Additive Manufacturing, Metallic Powder Core Tubular Wire
Document Type:
Research Paper
Organization / Institution:
NASA Langley Research Center, Colorado School of Mines
Author:
Marcia Domack
Target Audience:
Researchers, Engineers, Academics in Additive Manufacturing
Period of Validity:
2020
Approval Date:
November 18-20, 2020
Date of Modifications:
N/A
Subject:
Science
Grade Level:
9
Topic:
Heat Treatment of Metals
Type of Document:
Laboratory Experiment Instructions
Focus Material:
Iron
Key Concepts:
Tempering, Hardness, Brittleness, Malleability
Materials:
Metal paper clips, crucible tongs, Bunsen burner, heat-resistant pad, beaker, cold water
Safety Requirements:
Safety eyewear, careful handling of hot metal and open flame
Experimental Variables:
Heat treatment method, cooling rate, number of bends before breaking
Data Collection:
Tables for bends count and observational notes
Sections Included:
Introduction, Purpose, Materials, Safety Precautions, Question, Hypothesis, Procedure, Observations, Analysis, Conclusion
Subject:
Chemistry
Topic:
Chemical bonding and atomic structure
Document type:
Educational workbook
Educational level:
Secondary education
Content focus:
Ions, isotopes, atomic models, ionic bonding, giant ionic lattices
Includes:
Explanatory text, worked examples, practice questions, calculation tasks, diagram instructions
Chemical elements referenced:
Lithium, Sodium, Potassium, Magnesium, Aluminium, Oxygen, Fluorine, Chlorine, Nitrogen, Boron, Beryllium, Sulphur, Calcium, Rubidium
Assessment component:
Exam-style questions and model answers
Year:
2020
Region / City:
United States
Theme:
Cryogenic Engineering
Document Type:
Technical Specification
Organization / Institution:
Fermilab
Authors:
Michael Geynisman, Mark Adamowski, John Anderson Jr., David Montanari, Michael White
Target Audience:
Engineers, Designers, and Technicians in Cryogenic and Structural Engineering
Period of Validity:
Ongoing
Approval Date:
January 2020
Revision Date:
January 2020
Modification History:
Updated requirements for quality control, added clarification on testing procedures, and modified terminology to align with industry standards
Description of Document:
Technical specification detailing the design, fabrication, quality control, testing, and maintenance standards for metallic membrane cryostats, including design guidelines, construction methods, and international code references.
Year:
2016
Date:
January 29, 2016
Time:
3:00–4:00 P.M.
Location:
EC2300 (Large Conference Room), Engineering Center
Institution:
Florida International University
Department:
Department of Mechanical and Materials Engineering
Organizing Unit:
Multidisciplinary Analysis, Inverse Design, Robust Optimization and Control (MAIDROC) Laboratory
Event Type:
Invited Lecture
Lecture Title:
Computational Materials Design Challenges for Metallic Materials
Lecturer:
David L. McDowell
Lecturer Affiliation:
Georgia Institute of Technology, Woodruff School of Mechanical Engineering and School of Materials Science and Engineering
Lecturer Position:
Regents’ Professor and Carter N. Paden, Jr. Distinguished Chair in Metals Processing; Executive Director, Institute for Materials
Organizer:
George S. Dulikravich
Research Field:
Computational Materials Science, Mechanical Engineering, Materials Engineering
Topic:
Multiscale modeling and computational design of metallic materials
Target Audience:
Faculty, researchers, and students in materials science and mechanical engineering
Region:
Miami, Florida, United States
Year:
2021
Region / city:
United Kingdom
Topic:
Obstetrics, Preterm Birth, Fetal Membranes
Document Type:
Academic Article
Organization / Institution:
University of Liverpool, Department of Women’s and Children’s Health
Author:
Dr. Laura Goodfellow, Dr. Angharad Care
Target Audience:
Obstetricians, Gynecologists, Medical Professionals
Period of Validity:
2019–2021
Approval Date:
March 2021
Date of Changes:
N/A
Year:
2026
Region / city:
Prague, Rende
Subject:
Gas transport properties, Ionic liquids, PolyActive™ membranes
Document type:
Supplementary Information
Institution:
University of Chemistry and Technology Prague, Institute on Membrane Technology (CNR-ITM), Czech Academy of Sciences
Author:
Martina Klepić, Alessio Fuoco, Marcello Monteleone, Elisa Esposito, Karel Friess, Pavel Izák, Johannes C. Jansen
Target audience:
Researchers in materials science, chemical engineering, membrane technology
Period of validity:
N/A
Approval date:
N/A
Modification date:
N/A
Year:
2025
Region / City:
International
Subject:
Membrane Science and Technology
Document Type:
Application Form
Institution:
MDPI
Author:
Membranes Journal Editorial Board
Target Audience:
Early Career Researchers in Membrane Science
Period of Validity:
N/A
Approval Date:
N/A
Modification Date:
N/A
Book Title:
Memmler’s Structure and Function of the Human Body
Edition:
11th Edition
Unit:
Unit I: The Body as a Whole
Chapter:
Chapter 4
Chapter Title:
Tissues, Glands, and Membranes
Page References:
pp. 64–75
Subject Area:
Human Anatomy and Physiology
Topics Covered:
Tissue origins; epithelial, connective, muscle, and nervous tissues; glands and secretions; membranes; tissue and aging
Document Type:
Chapter notes outline
Intended Audience:
Students of anatomy and physiology
Year:
N/A
Region / City:
N/A
Subject:
Cell biology
Document type:
Problem set
Author:
N/A
Target audience:
Students, educators
Period of validity:
N/A
Approval date:
N/A
Modification date:
N/A
Product name:
Blowerproof Liquid
Product type:
Liquid applied airtight membrane
Versions:
Blowerproof Liquid Brush (fibre reinforced); Blowerproof Liquid Roller (no fibres)
Manufacturer:
Hevadex Bvba
UK supplier:
ENBM Ltd
Region:
United Kingdom
Approval body:
British Board of Agrément
Certificate number:
17/5410
Intended use:
Airtight membrane for application on construction surfaces
Application methods:
Brush; Roller; Spray
Substrate condition:
Suitable for most construction surfaces including damp substrates
Primer requirement:
No primer required for most surfaces
Coverage:
0.60–1.0 kg/m² (approximately 1.0 mm thickness), depending on substrate porosity
Extensibility:
380% at 0.6 mm dry film thickness
Crack bridging capacity:
Greater than 2 mm at 0.6 mm dry film thickness
Diffusion resistance:
76 854 μ
VOC content:
VOC-free, non-toxic, water soluble
Colour change during drying:
Blue to black
Finish compatibility:
Can be plastered over
Year:
2021
Region / City:
State of the United States
Topic:
Roofing Specifications
Document Type:
Technical Specification
Organization:
State Government
Author:
Not specified
Target Audience:
Roofing Contractors, Inspectors, Project Managers
Effective Period:
From project initiation until completion
Approval Date:
Not specified
Amendment Date:
Not specified
Document type:
Supporting information for a scientific research article
Field of study:
Materials science; membrane technology; metal–organic frameworks
Research topic:
Synthesis and gas separation performance of MIL-116(Ga) membranes
Authors:
Ayisha Komal; Laura Calderón-Rodríguez; Franziska Scheffler; Eren Grossmann; Roman Sajzew; Ralf Wyrwa; Thomas Hoyer; Felix H. Schacher; Alexander Knebel
Corresponding author:
Alexander Knebel
Affiliated institutions:
Friedrich Schiller University Jena; Leibniz Institute of Photonic Technology; Fraunhofer Institute for Ceramic Technologies and Systems; Helmholtz Institute for Polymers in Energy Applications Jena
Institution location:
Jena, Germany; Hermsdorf, Germany
Organizations:
Otto Schott Institute of Materials Research; Institute of Organic Chemistry and Macromolecular Chemistry; Center for Energy and Environmental Chemistry; Fraunhofer IKTS
Materials studied:
MIL-116(Ga) metal–organic framework membranes supported on porous Al2O3
Experimental methods:
solvothermal synthesis; APTES surface functionalization; XRD characterization; SEM characterization; gas permeation testing
Equipment mentioned:
Rigaku MiniFlex diffractometer; JEOL 6510LV scanning electron microscope; TESCAN MIRA FE-SEM; Leica EM ACE600 sputter coater
Chemical compounds:
gallium(III) nitrate hydrate; mellitic acid; APTES; toluene; hydrochloric acid; acetone
Measured properties:
gas permeance; ideal selectivity; helium separation performance
Analyzed gases:
helium; methane and other gases used for permeation measurements
Figures:
XRD patterns and SEM images of MIL-116(Ga) synthesized under varying conditions
Tables:
synthesis conditions, gas permeance values, selectivity data, and comparison with other MOF-based membranes
Sections included:
materials; synthesis procedures; surface functionalization; membrane preparation; structural and morphological characterization; gas permeation calculations and tests; references