Institution
3M
Company•Saint Paul, Minnesota, United States•
About: 3M is a company organization based out in Saint Paul, Minnesota, United States. It is known for research contribution in the topics: Layer (electronics) & Coating. The organization has 7603 authors who have published 7907 publications receiving 254227 citations. The organization is also known as: Minnesota Mining and Manufacturing Company & 3M Company.
Papers published on a yearly basis
Papers
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Patent•
3M1
TL;DR: In this article, an improved indirect method for determining an antigen in a liquid sample was proposed, which utilizes a piezoelectric oscillator which has been coated with the antigen or a protein mixture containing the antigen being determined.
Abstract: An improved indirect assay and article for determining an antigen in a liquid sample. The assay utilizes a piezoelectric oscillator which has been coated with the antigen or a protein mixture containing the antigen being determined. The antigen-coated oscillator is contacted with the liquid sample and a predetermined amount of an antibody specific for the antigen being determined. The amount of free antigen in the sample, if any, can be determined by measuring the change in frequency of the oscillator following contact with the liquid sample and the antibody, and referring to a standard curve.
70 citations
Patent•
3M1
TL;DR: Abrasive and polishing belts and discs suitable for offhand and automated article finishing comprising a lofty, nonwoven abrasive web optionally needled to a woven fabric and a polymeric layer coated on the woven fabric opposite the non-woven layer.
Abstract: Abrasive and polishing belts and discs suitable for offhand and automated article finishing comprising a lofty, nonwoven abrasive web optionally needled to a woven fabric and a polymeric layer coated on the woven fabric opposite the nonwoven layer or if no woven fabric, coated on the nonwoven layer.
70 citations
Patent•
3M1
TL;DR: In this article, multi-layer, microporous polyolefin sheet materials are provided, which are autogenously bonded and have substantially the same porosity as prior to bonding.
Abstract: Multi-layer, microporous polyolefin sheet materials are provided. The sheet materials comprise at least two microporous polyolefin layers, the layers being autogenously bonded and having substantially the same porosity as prior to bonding.
70 citations
Patent•
3M1
TL;DR: Semicrystalline polymers can have predetermined amounts of their surfaces rendered quasi-amorphous by irradiation as discussed by the authors, which can display enhanced ability to accept bonding to other materials.
Abstract: Semicrystalline polymers can have predetermined amounts of their surfaces rendered quasi-amorphous by irradiation. Polymer surfaces which are so modified can display enhanced ability to accept bonding to other materials.
70 citations
Patent•
3M1
TL;DR: The use of a gelled network of inorganic oxide particles on the polymeric surface of a substrate provides a subbing layer having the potential for antistatic properties, antihalation properties, and good coatability as mentioned in this paper.
Abstract: The use of a gelled network of inorganic oxide particles on the polymeric surface of a substrate provides a subbing layer having the potential for antistatic properties, antihalation properties, and good coatability.
70 citations
Authors
Showing all 7604 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| P. Puppo | 100 | 448 | 69905 |
| Constantinos Sioutas | 87 | 408 | 30871 |
| Colin Norman | 79 | 734 | 22736 |
| Peter W. Carr | 77 | 517 | 22507 |
| John Collins | 73 | 368 | 25203 |
| David L. Butler | 66 | 149 | 18703 |
| Gerald J. Meyer | 64 | 373 | 16534 |
| Jerome H. Lemelson | 63 | 383 | 19212 |
| Frank R. Noyes | 62 | 99 | 16220 |
| Robert J. Linhardt | 58 | 1190 | 53368 |
| Roland Winston | 55 | 473 | 13911 |
| Supratik Guha | 54 | 243 | 11611 |
| Michael F. Weber | 52 | 173 | 10825 |
| Carl Franzblau | 51 | 206 | 7885 |
| James S. Fritz | 48 | 279 | 8639 |