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surface-microstructured bacterial cellulose nanofiber substrate

Based on

2 Articles
2017 Most recent source

Composition

Image only illustrates the order and placement of components as described in literature.

1

bacterial cellulose nanofibers

Type Nano Material
Formula
Role raw materials
2

water

Type Single Compound
Formula H2O
Role raw materials

Properties

General physical and chemical properties

Property Value Nanomaterial Variant Source
force

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Applications

Characterization

Method Nanomaterial Variant Source
atomic force microscopy

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Biological effects

Biological system Test details Nanomaterial Variant Source
human dermal fibroblasts (HDF)

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Preparation

Method 1

Type: Chemical synthesis
Source:
Starting materials
  • culture medium
  1. lVQU82WYBte6ADBSL1MHTrDl2g9gNSSwI
  2. YAzwzuz
Product

surface-microstructured bacterial cellulose nanofiber substrate

Size: not specified

Medium/Support: none

Method 2

Type: Chemical synthesis
Source:
Starting materials
  • β-D(+)-glucose
  1. cTBJAbJTcAP7czuK
  2. wrxUbuykU6ZNho4
  3. rz0S2zFGEyonQfJXrHekJCkQt5jaUyukqbCx5X
  4. 4XSQ3XlYSVIlTMpoVBi8TSx4vsoimf
  5. MecwQkpGkd
  6. aUWjnee9cWr4vLO7M71IGkw4JOUm
  7. 3EJ0eu2CcMzj
  8. HVuOnHDhYOIausHv1a5Hfvo9
  9. uK1JiXEM7dTi8MjuKGNcqsL9EywQDXXqsO0357AUh39HzPdwhPcDUAp8fPsFtV5
  10. J9VpTFcnJwvgq3069LtgWC7NSm9ZQhI9e
Product

surface-microstructured bacterial cellulose nanofiber substrate

Diameter: ~ 50 nm

Edge roughness: 184 - 552 nm

Groove period: 21200 - 21600 nm

Medium/Support: none

Method 3

Type: Chemical synthesis
Source:
Starting materials
  • β-D(+)-glucose
  1. WuA2f9Z41F24bdjb
  2. R7iDJfneKky86AL
  3. RHxQKvfUpUgmR7WfNWDb85QJGu2oBEy4gdJGyF
  4. OiZo1PHWVNqWkIUAG0zpvjF3Ql1RaL
  5. IbSUk4cinK
  6. UM4SrVn9XjtanKXHmzwu1mj9kF1z
  7. MRsd4sI8ucFX
  8. WnnnA6BKP0mh7jvQ4vcQXdtm
  9. fJxtIkaeOAh1yzQ0t8NzuozgScypgdjdlrXvxvkBspXXh2G4P
  10. bMqsg93legTuV7HvYR8CnqW63rLWiGiHI
Product

surface-microstructured bacterial cellulose nanofiber substrate

Diameter: ~ 60 nm

Medium/Support: none

Method 4

Type: Chemical synthesis
Source:
Starting materials
  • β-D(+)-glucose
  1. apUJmtIbqS5EcTap
  2. lFkywj5yoCR7QuV
  3. fpVJNQwzu0O2Hysi6NGVJCXiszUf0FWS4gX7YY
  4. dUP8JBvvbTVXmVhfa0dlMdaGObkoUH
  5. vVCebGjI4O
  6. OV371Lfgs4HRybMGBURJGuxQvDgD
  7. Dmf7k9y7D4Xm
  8. rRFjUhUKLdvZKsv6MbG83mix
  9. Ja3tNOUBroAFVaGRObbyRFvWRA4xMJoAxoUjRKNowO0D9bCokANUEUyHeS4bXpS
  10. hgD578Kk0ogzAVO5uvYlhIE9qIbq7nsYM
Product

surface-microstructured bacterial cellulose nanofiber substrate

Edge roughness: 364 - 540 nm

Groove period: 99500 - 100700 nm

Medium/Support: none

Method 5

Type: Chemical synthesis
Source:
Starting materials
  • β-D(+)-glucose
  1. kQwFipMgyap1xGxC
  2. nust8xWSPV8vCJ2
  3. smhPLqsgyQDSwinacZbmnZsAB9KqWvPWAQCT99
  4. nams3dgDI5Vxxpuz52Ok65Muk05KCh
  5. FvbRPCUQrY
  6. SHdneLwKnuNa3igZzgg68HbdKAGB
  7. 7wHOxtTkpFeU
  8. XFZO9tm612kcOhuGQheHBraE
  9. 4UZzYxeY1ukMDCnuXW2H2fwnoTamgN4NNMEO3Lnmawr2prhPuuhLTfAZ5PiEwQG
  10. OYDCuewd9EJqcn4mzrKESeU7LYiG7Ys2H
Product

surface-microstructured bacterial cellulose nanofiber substrate

Diameter: ~ 40 nm

Edge roughness: 240 - 540 nm

Groove period: 9600 - 10400 nm

Medium/Support: none

References

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