Nanomedicine
Animation detailing the nanoparticle-mediated drug delivery process within the human body.
2D animation & art: Sarah Shattuck
3D animation: Thomas Carter
Title & sound design: Jacob Rodier
Scientists: Ying Li & Huilin Ye
3D animation: Thomas Carter
Title & sound design: Jacob Rodier
Scientists: Ying Li & Huilin Ye
Storyboards & Background art
![Storyboards 1](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/09131e13-1fea-4acb-80b8-bd8f7ade887c_rw_1920.png?h=53f38c7904b23eeb7a8293903102c9d3)
Storyboards 1
![Storyboards 2](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/62a3fa07-a295-4b62-9fc7-9267a7eb3336_rw_1920.png?h=212dce785ecdadf3957139058eed6431)
Storyboards 2
![Storyboards 3](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/8f2c618b-12c5-4462-bdc3-1c6bed1edd25_rw_1920.png?h=413a25ca6fd12c255c0cb8d7c2d88763)
Storyboards 3
![Storyboards 4](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/26161070-54d4-4fa4-a2f8-c19006973ff5_rw_1920.png?h=37b7753b3c68d5fae4833318da748dc3)
Storyboards 4
![Style Guide](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/0cfbe535-e459-44eb-abae-e5d248efa0ce_rw_1920.png?h=2855315f3833ae12a41ffeedd67647f3)
Style Guide
![Holly Graham the Hologram Illustration](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/a6a30bc5-bcab-41b2-ba3f-dcc742e2b943_rw_1200.png?h=8cc70e2bbb42b749f7ba9319ed27ef7a)
Holly Graham the Hologram Illustration
![Syringe Illustration](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/05675a12-647e-4c08-bddf-b1322d76d810_rw_1920.png?h=cf7c3832da29de1676022e9d8ebfb436)
Syringe Illustration
![Bacteriophage Ship Illustration](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/89ee8136-0a6d-4036-b391-2e8ff9f22785_rw_3840.png?h=5dfcc39a0fe1830dc216b3fef923d5eb)
Bacteriophage Ship Illustration
![Background Art](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/ef2fa434-fd65-4511-a936-0b72b2efed56_rw_1920.png?h=da0a82d102c13335b15bed5c2a28378d)
Background Art
![Background Art](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/4f34de5e-ba5a-4816-a2fe-48359e63f0f0_rw_1920.png?h=da9c4b5ec5574f45be57c1e5fc7b0c6b)
Background Art
![Background Art](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/659c1f93-1e30-4d2f-b89d-4bcbdbbcdc2c_rw_1920.png?h=be7e928591db23a6891c74a6b01a7616)
Background Art
![Background Art](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/001b1ab6-8f88-470c-b7c3-58b916542b63_rw_1920.png?h=9ebb239500505c09915500bd1b4389aa)
Background Art
Shown in the following conferences:
Ying Li (2019, September). Cyber-enabled Design of Lipid-like Theranostic Nanoparticles with Tunable Size and Shape. In: Department of Material Science, Indiana University, Bloomington, IN, USA.
Ying Li, Huilin Ye, and Zhiqiang Shen (2019). Computational modeling of magnetic particle margination within blood ow through LAMMPS. In: 16th Pan-American Congress of Applied Mechanics (PACAM XVI). Ann Arbor, MI, USA.
Soft Matter
![](https://cdn.myportfolio.com/a7f4418c-02f2-4d74-95c5-afec3784d01a/c0f36ae6-e60c-4aa2-b9d5-8bb55df958c0_rw_1920.png?h=420c83004535bae0a800ff279dd26e2c)
Cover art for Soft Matter Journal from The Royal Society of Chemistry.
Illustration: Sarah Shattuck
Paper: Ying Li et al.
Red blood cell hitchhiking enhances the accumulation of nano- and micro-particles in the constriction of a stenosed microvessel
Red blood cell hitchhiking enhances the accumulation of nano- and micro-particles in the constriction of a stenosed microvessel