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Li+/poly(aryl acetylene) nanotubes

Based on

1 Articles
2014 Most recent source

Composition

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

1

helical polymer nanospheres-metal ion complex

Li+/poly(aryl acetylene) nanospheres helical polymer-metal complex HPMC
Type Nano Material
Formula
Role raw materials

Properties

Applications

Characterization

Method Nanomaterial Variant Source
circular dichroism

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Biological effects

Preparation

Method 1

Type: Physical formation
Source:
  1. qfUZV5rR9JfLdHs4Qb5Ms
  2. lJyhR0dK6VBCQDw4gtUaaRKfKN
Product

Li+/poly(aryl acetylene) nanotubes

Diameter: ~ 60 - ~ 100 nm

Medium/Support: none

Method 2

Type: Chemical synthesis
Source:
Starting materials
  • poly-(R)-α-methoxyphenylacetic acid
  • lithium perchlorate
  1. FGxq5F2OJpu6DpJvxnJ
  2. Sx23FPpeoyFNJw9mtzN
Product

Li+/poly(aryl acetylene) nanotubes

Diameter: ~ 60 - ~ 100 nm

Medium/Support: none

Method 3

Type: Chemical synthesis
Source:
Starting materials
  • poly-(R)-α-methoxyphenylacetic acid
  • lithium perchlorate
  1. zVoebtKqDCudn02UIdU
  2. UAKeS7ALrswYbt71mL1
Product

Li+/poly(aryl acetylene) nanotubes

Diameter: ~ 60 - ~ 100 nm

Medium/Support: none

Method 4

Type: Chemical synthesis
Source:
Starting materials
  • poly-(R)-α-methoxyphenylacetic acid
  • lithium perchlorate
  1. QPn6m8tYUdKd3bIWS1m0ecdMer9
  2. ZWZ3fmvAqNs2o6u6JSy
Product

Li+/poly(aryl acetylene) nanotubes

Diameter: ~ 60 - ~ 100 nm

Medium/Support: none

Method 5

Type: Physical formation
Source:
  1. mlD7s5vgQcuMvz7ty4DIY
  2. pNPch08WJaN9Notg72oU63oDPm
Product

Li+/poly(aryl acetylene) nanotubes

Diameter: ~ 60 - ~ 100 nm

Medium/Support: none

References

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