Illustration

Illustration

Illustration

Illustration

Illustration

2020

2020

2020

2020

2020

ACS Publicacions

ACS Publicacions

ACS Publicacions

ACS Publicacions

ACS Publicacions

This captivating illustration represents a scientific research experience in the field of biochemistry, featured on the cover of Bioconjugate Chemistry magazine (18th March 2020, Vol. 31, ed. 3).

This captivating illustration represents a scientific research experience in the field of biochemistry, featured on the cover of Bioconjugate Chemistry magazine (18th March 2020, Vol. 31, ed. 3).

This captivating illustration represents a scientific research experience in the field of biochemistry, featured on the cover of Bioconjugate Chemistry magazine (18th March 2020, Vol. 31, ed. 3).

This captivating illustration represents a scientific research experience in the field of biochemistry, featured on the cover of Bioconjugate Chemistry magazine (18th March 2020, Vol. 31, ed. 3).

This captivating illustration represents a scientific research experience in the field of biochemistry, featured on the cover of Bioconjugate Chemistry magazine (18th March 2020, Vol. 31, ed. 3).

The image, interpreted in collaboration with the scientific team, portrays fluorescent lipids and their behavior in the cell membrane. The fluorescence of these lipids serves as a means of investigating biological functions.

The image, interpreted in collaboration with the scientific team, portrays fluorescent lipids and their behavior in the cell membrane. The fluorescence of these lipids serves as a means of investigating biological functions.

The image, interpreted in collaboration with the scientific team, portrays fluorescent lipids and their behavior in the cell membrane. The fluorescence of these lipids serves as a means of investigating biological functions.

The image, interpreted in collaboration with the scientific team, portrays fluorescent lipids and their behavior in the cell membrane. The fluorescence of these lipids serves as a means of investigating biological functions.

The image, interpreted in collaboration with the scientific team, portrays fluorescent lipids and their behavior in the cell membrane. The fluorescence of these lipids serves as a means of investigating biological functions.

The fluorescence effect resulting from the contact of molecules with lipids is conveyed through the application of a fluorescent tone with brightness, also present in the trail suggesting their transport between cell membranes.

The fluorescence effect resulting from the contact of molecules with lipids is conveyed through the application of a fluorescent tone with brightness, also present in the trail suggesting their transport between cell membranes.

The fluorescence effect resulting from the contact of molecules with lipids is conveyed through the application of a fluorescent tone with brightness, also present in the trail suggesting their transport between cell membranes.

The fluorescence effect resulting from the contact of molecules with lipids is conveyed through the application of a fluorescent tone with brightness, also present in the trail suggesting their transport between cell membranes.

The fluorescence effect resulting from the contact of molecules with lipids is conveyed through the application of a fluorescent tone with brightness, also present in the trail suggesting their transport between cell membranes.

With the aim of creating dynamism and fluidity in the composition, the membrane has been structured sinuously with the overlap of its elements. A three-dimensional aspect has been given to the lipids through the application of texture and shadow.

With the aim of creating dynamism and fluidity in the composition, the membrane has been structured sinuously with the overlap of its elements. A three-dimensional aspect has been given to the lipids through the application of texture and shadow.

With the aim of creating dynamism and fluidity in the composition, the membrane has been structured sinuously with the overlap of its elements. A three-dimensional aspect has been given to the lipids through the application of texture and shadow.

With the aim of creating dynamism and fluidity in the composition, the membrane has been structured sinuously with the overlap of its elements. A three-dimensional aspect has been given to the lipids through the application of texture and shadow.

With the aim of creating dynamism and fluidity in the composition, the membrane has been structured sinuously with the overlap of its elements. A three-dimensional aspect has been given to the lipids through the application of texture and shadow.