27 Bilder zum Thema "amphiphile" bei ClipDealer

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Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of hexagonal phase consists of DNA rods between rodlike lipid micelles arranged on a hexagonal lattice
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
A 3d rendering of inverse hexagonal HIIc phase consists of DNA rods coated with a lipid monolayer arranged on a hexagonal lattice.
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
Illustration of different phospholipid arrangements including (from left to right) micelle, liposome, lipid bilayer. Phospholipids have a hydrophilic head and hydrophobic tails.
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of hexagonal phase consists of DNA rods between rodlike lipid micelles arranged on a hexagonal lattice
3d rendering of hexagonal lipid phase. In this phase, long, tubular aggregates form in a hexagonal pattern
3d rendering of hexagonal lipid phase. In this phase, long, tubular aggregates form in a hexagonal pattern
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
Liposomes are used to efficiently deliver cargo molecules such as siRNA, mRNA, or RNA into cells in vitro and in vivo 3d rendered
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of inverse hexagonal phase. In this phase, long, tubular aggregates form in a hexagonal pattern
3d rendering of hexagonal phase consists of DNA rods between rodlike lipid micelles arranged on a hexagonal lattice
3d rendering of hexagonal lipid phase. In this phase, long, tubular aggregates form in a hexagonal pattern
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of inverse hexagonal phase. In this phase, long, tubular aggregates form in a hexagonal pattern
A 3d rendering of inverse hexagonal HIIc phase consists of DNA rods coated with a lipid monolayer arranged on a hexagonal lattice.
3d rendering of inverse hexagonal phase. In this phase, long, tubular aggregates form in a hexagonal pattern
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of hexagonal lipid phase. In this phase, long, tubular aggregates form in a hexagonal pattern
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
Illustration of soap molecules forming a micelle structure by surrounding and capturing dirt. The hydrophobic tail attracts grease and oily substances, while the hydrophilic head is attracted to water.
3d rendering of inverse hexagonal phase. In this phase, long, tubular aggregates form in a hexagonal pattern

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