light microscope motic ba310 Search Results


microscopy  (Motic Group)
86
Motic Group microscopy
Microscopy, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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microscope  (Motic Group)
86
Motic Group microscope
Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscope  (Motic Group)
86
Motic Group optical microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Optical Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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light microscope  (Motic Group)
86
Motic Group light microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Light Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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motic ba 310 microscope  (Motic Group)
86
Motic Group motic ba 310 microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Motic Ba 310 Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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connective tissue  (Motic Group)
86
Motic Group connective tissue
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Connective Tissue, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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upright microscope  (Motic Group)
86
Motic Group upright microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Upright Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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camera  (Motic Group)
86
Motic Group camera
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Camera, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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camera - by Bioz Stars, 2026-06
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optical light microscope  (Motic Group)
86
Motic Group optical light microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Optical Light Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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binocular microscope  (Motic Group)
86
Motic Group binocular microscope
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Binocular Microscope, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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microscopy transmission mode  (Motic Group)
86
Motic Group microscopy transmission mode
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Microscopy Transmission Mode, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscopy  (Motic Group)
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Motic Group optical microscopy
Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) <t>Microscope</t> images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).
Optical Microscopy, supplied by Motic Group, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) Microscope images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).

Journal: Small (Weinheim an der Bergstrasse, Germany)

Article Title: Liquidlike, Low-Friction Polymer Brushes for Microfibre Release Prevention from Textiles.

doi: 10.1002/smll.202400580

Figure Lengend Snippet: Figure 2. MPF counting and analysis. The mean number of MPFs released per gram of fabric from uncoated nylon and a) primer-coated nylon, b) polymer brush-coated nylon, and c) primer-polymer brush-coated nylon. The mean number of MPFs released per gram of fabric from uncoated polyester and d) primer-coated polyester, e) polymer brush-coated polyester, and f) primer-polymer brush-coated polyester. g) Schematic of laboratory-scale fabric laundering process. h,i) Microscope images of MPF collection filters after washing the h) nylon and i) polyester fabrics. Each image shows a square area of ≈12.6 mm2. j,k) SEM images of uncoated and coated j) nylon and k) polyester fabrics after five washing cycles. l) Cross-polarized optical images of the surfaces of the MPFs released from the uncoated and coated nylon fabrics after one washing cycle. Scale bars are j) 500, k) 100, and l) 10 μm. Error bars represent the mean ± 1 SD and N = 3. *Student’s t-test P value <0.05; **Student’s t-test P value <0.01; ***Student’s t-test P value <0.005; N.S., not significant (P value >0.05).

Article Snippet: Birefringence optical observations were conducted using a polarized optical microscope (Motic, BA310 Pol, 60×) equipped with 4×, 10×, 40×, and 60× objectives.

Techniques: Polymer, Microscopy