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Field | Description | ||||||
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Name | Enter the name of the biopolymer. | ||||||
Bipolymer type |
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Sequence | Using the appropriate format, enter the complete sequence of the biopolymer. |
After defining the particle properties, continue Continue below to define Carbon Nanotube carbon nanotube information.
Carbon Nanotube
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Field | Description |
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Average Length | Enter the average length of the nanotube. |
Length Unit | Select or enter the measurement unit type for the average length measurement of the nanotube. |
Chirality | The spatial position or orientation of functional groups located within a molecule. Enter information about the chirality in the nanotube and its effect on the orientation of functional groups located on the particle. |
Diameter | Enter the measurement of the nanotube diameter, as measured from one side of the tube wall through the center of the nanotube to the opposite point on the circumference. |
Diameter Unit | Enter the measurement unit type of the nanotube diameter. |
Wall Type |
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After defining the particle properties, continue Continue below to define Dendrimer dendrimer information.
Dendrimer
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Field | Description |
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Branch | Branches are molecules that branch off of the core (like tree branches). Enter a description that represents the number of branches in the dendrimer. |
Generation | Generations are shells layered on the core of a dendrimer. Dendrimers consist of layers of chemical shells built on a core module. Each shell consists of two chemicals in the same order (A-B) and each shell is called a generation. The generations are labeled in decimal to illustrate the shell layering/consistency. For example, Generation 2.5 (G2.5) = 1 shell of A-B (1), surrounded by a second shell of A-B (2), topped off with only one chemical A within the shell (.5). As such, the layering structure would be (A-B, A-B, A) = 2.5. List the generations reflected in this dendrimer.
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After defining the particle properties, continue Continue below to define Emulsion information.
Emulsion
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Field | Description |
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Is Polymerized* | Specify whether the composition is polymerized. Polymerization consists of enzymatic reactions that link a series of monomers, forming a polymerized compound (polymer), usually of high molecular weight, by combination of simpler molecules (monomers). |
Polymer Name* |
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After defining the particle properties, continue Continue below to define Fullerene information.
Fullerene
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Field | Description |
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Average Diameter | Enter themeasurement of the fullerene diameter, as measured from one side of the nanoparticle through its center to the opposite point on the circumference. |
Average Diameter Unit | Enter the measurement unit type of the fullerene diameter. |
Number of Carbons | Enter the number of carbon molecules comprising the fullerene. |
After defining the particle properties, continue Continue below to define Liposome information.
Liposome
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Field | Description |
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Polymer Name | Enter the name of the liposome polymer. |
Is Polymerized | Polymerization consists of enzymatic reactions that link a series of monomers, forming a polymerized compound (polymer), usually of high molecular weight, by combination of simpler molecules (monomers). Select Yes or No, reflecting whether or not the liposome is polymerized. |
After defining the particle properties, continue Continue below to define Metal Particle metal particle information.
Metal Particle
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There are no unique metal particle properties to be defined. Continue below to define Polymer polymer information.
Polymer
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Field | Description |
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Initiator | Enter the agent that initiated the polymerization. Examples are free radicals or peroxide. |
Is crosslinked | Crosslinking is a covalent bond between two polymers or two different regions of the same polymer. Select Yes or No, indicating whether the polymer is crosslinked. |
Crosslink Degree | Enter the percentage level of covalent linkage in the polymer. |
After defining the particle properties, continue Continue below to define Quantum Dot quantum pot information.
Quantum Dot
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There are no unique quantum dot properties to be defined. Continue to define Nanomaterial Composing ElementsinformationElements.
Defining Nanomaterial Composing Elements
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Anchor | ||||
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To add a functionalizing entity
- Access a sample and composition.
Click the All or Functionalized Entity tab to enter data or add files pertaining to the nanomaterial component of the sample. Both tabs display five sections, but the All tab provides customizations based what you select in the Functionalized Entity Type* field.
Tip Include Page Other options Other options Follow these steps to fill in the composition. Links are provided for additional details.
Anchor AddFunctionalizedEntity AddFunctionalizedEntity Section What to Do Functionalized Entity Type* Fill in the entity type (required).
[Functionalizing Entity] Properties Fill in the customized information according to what you selected for Functionalized Entity Type. Function Information Add information about the functionalizing elements of the sample. File click Add to expand the page where you can add one or more files whose data is relevant to the functionalizing entity or the derivation of its data.
Copy to other samples select one or more samples in the list to which you want this composition data transferred. This option copies files and data to one or more selected samples "owned" by the same point of contact. When you finish, click Submit to save the data to the sample.
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Defining a Functionalizing Entity
To define a Fill in the following functionalized entity information as needed.
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Field | Description |
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Chemical Name | Enter the chemical name for the functionalizing entity whose type you just selected. | ||||||
PubChem Data Source/PubChem ID |
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Amount/Amount Unit |
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Molecular Formula Type |
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Molecular Formula |
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Enter the chemical formula of the functionalizing entity. | |
Activation Method |
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Select from the drop-down menu the method used to activate the functionality of the sample. Selection options are: | |
Activation Effect |
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Enter the functional effect of the entity. | |
Description |
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Enter any additional composition information that the form does not include. |
When you finish, click Submit to save the data to the sample or click Reset to clear all fields on the form.
Continue to define Functionalizing Entity type] Properties.
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The [Funtionalizing Entity Type] Properties section opens for some Functionalizing Entity types as you make that selection. To define
Fill in the following functionalized properties for each unique functionalizing entity, enter information for the following fields.
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Field | Description |
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Antibody |
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Select from the following fields: | |
Biopolymer |
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Select from the following fields:
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Small Molecule |
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Add an Alternate Name for the Small Molecule. |
Continue to define Function information.
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Defining Function Information
To define Fill in the following function information for the functionalizing entity.
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Field | Description | ||||||
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Function Type |
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Description |
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Enter any additional composition information that the form does not include. | |
When you finish, click Save or click Cancel to clear all fields on the form.
In the Navigation Tree, a hyperlink for the new Composition characterization is added under Functionalizing Entity.
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