1、个人简历
陈东,男,1983年出生,浙江大学能源工程学院化工机械研究所特聘研究员,入选浙江大学“百人计划”。本科就读于中国科学技术大学,师从张裕恒院士,从事超导,巨磁阻材料的研究。博士就读于美国科罗拉多大学博尔德分校,师从Noel Clark院士,研究不同液晶分子的自组装,光电响应等。博士后就读于美国哈佛大学,师从David Weitz院士,主要从事微流控,微囊化等技术和设备的研究。
课题组主页:https://zjumicrofluidic.wixsite.com/chendonglab
联系方式:chen_dong@zju.edu.cn 联系地址:浙江大学玉泉校区教四118
欢迎感兴趣的同学加入我们!
2、研究学术业绩简介
目前已在Science、Nature Communication、PNAS、JACS、Advance Materials、Angew. Chem. Int. Ed.等杂志上发表论文共计31篇,其中第一作者论文12篇,发表于Nature Communication、PNAS、 JACS、Soft Matter等国际期刊,总引用次数593次 (google scholar),篇均引用次数19余次,H因子14;研究工作被Science、Nature Chemistry、PNAS、Liquid Crystal Today、 SPIE.org、MRSEC.org 等专题报道。这些研究工作对液晶、微流控等领域具有重要意义
3、发表论文
(53) Genetically engineered supercharged polypeptide fluids: fast and persistent self-ordering
induced by a touch Lei Zhang, Chao Ma, Jing Sun, Giuseppe Portale, Kai Liu*,
Andreas Herrmann*
(52) A Review of Electrospinning: A Powerful Technology to Fabricate Functional Nanofibers
with Designed Alignment and Internal Structure Ran Chen, Junfeng Liu, Zeyong Sun,
Dong Chen.
(51) R. Ran, H. Wang, Y. Liu, Y. Hui, Q. Sun, A. Seth, D. Wibowo, D. Chen, and C.-X. Zhao*
“Microfluidic self-assembly of a combinatorial library of single- and dual-ligand liposomes for
in vitro and in vitro tumor targeting” The effect of molecular structure on the chiral random grain
boundary phase,” European Journal of Pharmaceutics andBiopharmaceutics, (accepted).
(50) H. Wang, Q. Zhang, D. Chen, J. Shi, M. Li* and H. Xin* “The effect of molecular structure on the
chiral random grain boundary phase,” Liquid Crystals, 45, 1234 (2018).
(49) H. Zhang, Y. Zhu, L. Qu, H. Wu, H. Kong, Z. Yang, D. Chen, E. Makila, J. Salonen, H. Santos,
M. Hai* and D. Weitz*, “Gold Nanorods Conjugated Porous Silicon Nanoparticles
Encapsulated in Calcium Alginate Nano Hydrogels Using Microemulsion Templates”,
Nano Letters, 18, 1448 (2018)
(48) H. Zhang, X. Qu, H. Chen, H. Kong, R. Ding, D. Chen, X. Zhang, H. Pei, H. Santos, M. Hai* and
D. Weitz*, “Fabrication of Calcium Phosphate-Based Nanocomposites Incorporating DNA Origami,
Gold Nanorods, and Anticancer Drugs for Biomedical Applications. " Advanced Healthcare
Materials6, 1700664, (2017).
(47) D. Chen, C.-X. Zhao, C. Lagoin, M. Hai, L. R. Arriaga, S. Koehler, A. Abbaspourrad* and
D. A. Weitz*, “Dispersing hydrophobic natural colourant β-carotene in shellac particles for
enhanced stability and tunable colour,” Royal Society Open Science, 4, 170919 (2017).
(46) J. Cui, T. Zhan, K. Zhang* and D. Chen*, “The recent advances in constructing designed electrode
in lithium metal batteries,” Chinese Chem. Lett., 28, 2171 (2017).
(45) D. Chen, E. Amstad, C.-X. Zhao, L. Cai, J. Fan, Q. Chen, M. Hai, S. Koehler, H. Zhang*,
F. Liang, Z. Yang and D. A. Weitz*, “Biocompatible Amphiphilic Hydrogel-Solid Dimer Particles
as Colloidal Surfactants,” ACS Nano, 11, 11978 (2017).
(44) L. Wang, D. Chen, K. G. Gutierrez-Cuevas, H. K. Bisoyi, J. Fan, R. S. Zola, G. Li, A. M. Urbas,
T. J. Bunning, D. A. Weitz, and Q. Li*, “Optically reconfigurable chiral microspheres of
self-organized helical superstructures with handedness inversion,” Mater. Horiz., 4,
1190 (2017).
(43) Y. Shi+, Z. Sun+, R. Chen, C. Zhu, R. K. Shoemaker, E. Tsai, D. M. Walba, M. A. Glaser,
J. E. Maclennan, D. Chen*, and N. A. Clark*, “Effect of Conformational Chirality on Optical
Activity Observed in a Smectic of Achiral, Bent-Core Molecules,” J. Phys. Chem. B, 121,
6944 (2017).
(42) L. Kong, E. Amstad, M. Hai, X. Ke, D. Chen*, C.-X. Zhao*, and D. A. Weitz*, “Biocompatible
microcapsules with a water core templated from single emulsions,” Chinese Chem. Lett., 28,
1897 (2017).
(41) W. Zhang+, A. Abbaspourrad+, D. Chen, E. Campbell, H. Zhao, Y. Li, Q. Li, and D. A. Weitz*,
“Osmotic Pressure Triggered Rapid Release of Encapsulated Enzymes with Enhanced Activity,”
Adv. Funct. Mater., 27, 1700975 (2017).
(40) X. Huang, M. Eggersdorfer, J. Wu, C.-X. Zhao, Z. Xu*, D. Chen*, and D. A. Weitz*, “Collective
generation of milliemulsions by step-emulsification,” RSC Advances, 7, 14932 (2017).
(39) C.-X. Zhao*, D. Chen, Y. Hui, D. A. Weitz, and A. P. J. Middelberg, “Controlled generation of
ultra-thin-shell double emulsions and their stability study,” ChemPhysChem, 18, 1, (2017).
(38) F. Kong, H. Zhang, X. Zhang, D. Liu, D. Chen, W. Zhang, L. Zhang, H. A Santos, and M. Hai*
“Biodegradable Photothermal and pH Responsive Calcium Carbonate@ Phospholipid@ Acetalated
Dextran Hybrid Platform for Advancing Biomedical Applications,” Adv. Funct. Mater., 26, 6158,
(2016).
(37) F. Kong+,H. Zhang+,X. Qu, X. Zhang+, D. Chen, R. Ding, E. Mäkilä, J. Salonen, H. A. Santos, and
M. Hai* ,“Gold Nanorods, DNA Origami, and Porous Silicon Nanoparticle-functionalized
BiocompatibleDouble Emulsion for Versatile Targeted Therapeutics and Antibody Combination
Therapy,” Adv. Mater.,28, 10195, (2016).
(36) Q. Chen, D. Chen, J. Wu, and J.-M. Lin*,“Flexible Control of Cellular Encapsulation, Permeability
and Release in a Droplet-Templated Bifunctional Copolymer Scaffold,” Biomicrofluidics,
10, 064115 (2016).
(35) F. Kong, H. Zhang, X. Zhang, D. Liu, D. Chen, W. Zhang, L. Zhang, H. A. Santos and M. Hai, “Drug
Co-Delivery: Biodegradable Photothermal and pH Responsive Calcium Carbonate@Phospholipid
@Acetalated Dextran Hybrid Platform for Advancing Biomedical Applications,”
Adv. Funct. Mater.34, 6138 (2016).
(34) K. Liu, J. Varghese, J. Y. Gerasimov, A. O. Polyakov, M. Shuai, J. Su, D. Chen, W. Zajaczkowski,
A. Marcozzi,W. Pisula, B. Noheda, T. T.M. Palstra, N. A. Clark and A. Herrmann, “Controlling the
volatility of the written optical state in electrochromic DNA liquid crystals,” Nature
Communications,7, 11476 (2016)
(33) M.-J. Gim, H. Kim, D. Chen, Y. Shen, Y. Yi, E. Korblova, D. M. Walba, N. A. Clark and
D. K. Yoon,“Airflow-aligned helical nanofilament (B4) phase in topographic confinement,”
Scientific Reports, 6, 29111 (2016).
(32 ) Q. Chen, S. Utech, D. Chen, R. M. Prodanovic, J. Lin, and D. A. Weitz, “Controlled assembly
of heterotypic cells in a core-shell scaffold: Organ in a droplet,” Lab on a Chip, 16, 1346 (2016).
(31) C. Zhao, J. Fan, D. Chen, Y. Xu, and T. Wang, “Microfluidics-generated graphene oxide
microspheres and their application to removal of perfluorooctane sulfonate from polluted water,”
Nano Research, 9, 866 (2016).
(30) M. R. Tuchband, D. Chen, B. Horanyi, M. Shuai, Y. Shen, E. Korblova, D. M. Walba, N.
Kapernaum,F.Giesselmann, M. A. Glaser, J. E. Maclennan, and N. A. Clark “Manipulating the
twist sense of,helical nanofilaments of bent-core liquid crystals using rod-shaped, chiral
mesogenic dopants,”Liquid Crystal, 43, 1083(2016).
(29) C. Zhao, D. Chen, Y. Hui, A. P. J. Middelberg, and D. A. Weitz “Stable Ultra-Thin-Shell Double
Emulsions for Controlled Release,” ChemPhysChem, 17, 1 (2016).
(28) L. Su, P. Wang, Z. Xu, M. Peng, and D. Chen“Oscillatory Shear-Induced Alignment of Ketjen
Black Conductive Particle Chains in Polylactic Acid and its Effect on the Electrical Anisotropy,”
Journal of Polymer Science, Part B: Polymer Physics, 54, 369 (2015).
(27) D. Chen, M. R. Tuchband, B. Horanyi, E. Korblova, D. M. Walba, M. A. Glaser, J. E. Maclennan,
and N. A. Clark “Diastereomeric liquid crystal domains at the mesoscale,”
Nat. Commun., 6, 7763 (2015).
(26) F. Kong, X. Zhang, H. Zhang, X. Qu, D. Chen, M. Servos, E. Makila, J. Salonen, H. A. Santos,
M. Hai, and D. A. Wait “Inhibition of Multidrug Resistance of Cancer Cells by Co-Delivery
of DNA Nanostructures and Drugs Using Porous Silicon Nanoparticles@Giant Liposomes”
Adv. Funct. Mater., 25, 3330 (2015).
(25) C. Zhu, C. Wang, A. Young, F. Liu, I. Gunkel, D. Chen, D. Walba, J. Maclennan, N. Clark,
and A.Hexemer “Probing and Controlling Liquid Crystal Helical Nanofilaments”
Nano Lett., 15, 3420 (2015).
(24) K. Liu, D. Pesce, C. Ma, M. Tuchband, M. Shuai, D. Chen, J. Su, Q. Liu, J. Y. Gerasimov,
A. Kolbe, W. Zajaczkowski, W. Pisula, K. Müllen, N. A. Clark, and A. Herrmann “Solvent-free
liquid crystals and liquids based on genetically engineered supercharged polypeptides with
extraordinary mechanical properties” Adv. Mater., 27, 2459 (2015).
(23) K. Liu, M. Shuai, D. Chen, M. Tuchband, J. Y. Gerasimov, J. Su, Q. Liu, W. Zajaczkowski,
W. Pisula, K. Müllen, N. A. Clark, and A. Herrmann “Solvent-free liquid crystals and liquids from
DNA” Chem. Eur. J., 21, 4898 (2015).
(22) K. Liu, D. Chen, A. Marcozzi, L. Zheng, J. Su, D. Pesce, W. Zajaczkowski, A. Kolbe, W. Pisula,
K. Müllen, N. A. Clark, and A. Herrmann “Thermotropic liquid crystals from biomacromolecules,”
Proc. Natl. Acad. Sci.,111, 18596 (2014).
(21) D. Chen, H. Wang, M. Li, M. A. Glaser, J. E. Maclennan, and N. A. Clark, “Chiral random grain
boundary phase of achiral hockey-stick liquid crystals,” Soft Matter, 10, 9105 (2014).
(20) R. Callahan, D. Coffey, D. Chen, N. A. Clark, G. Rumbles, and D. M. Walba, “Charge generation
measured for fullerene – helical nanofilament liquid crystal heterojunctions,” ACS Appl. Mater.
Interfaces, 6, 4823 (2014).
(19) D. Chen, M. Nakata, R. Shao, M. R. Tuchband, M. Shuai, U. Baumeister, W. Weissflog,
D. M. Walba, M. A. Glaser, J. E. Maclennan, and N. A. Clark, “Twist-bend heliconical chiral
nematic liquid crystal phase of an achiral rigid bent-core mesogen,”
Phys. Rev. E, 89, 022506 (2014).
(18) N. Hu, R. Shao, Y. Shen, D. Chen, N. A. Clark, and D. M. Walba, “An electric-field-responsive
discotic liquid-crystalline hexa-peri-hexabenzocoronene/oligothiophene hybrid,”
Adv. Mater., 26, 2066 (2014).
(17) D. Chen, Y. Shen, J. Aguero, E. Korblova, D. M. Walba, N. Kapernaum, F. Giesselmann,
J. Watanabe, J. E. Maclennan, M. A. Glaser, and N. A. Clark, “Chiral isotropic sponge phase
of hexatic smectic layer from achiral molecules,” ChemPhysChem, 15, 1502 (2014).
(16) D. Chen, D. K. Yoon, J. E. Maclennan, M. A. Glaser, E. Korblova, D. M. Walba, N. Gimeno,
M. B. Ros, R. Deb, N. V. S. Rao, and N. A. Clark, “Spiral layer undulation defects in B7 liquid
crystals,”Soft Matter, 9, 11303 (2013).
(15) D. Chen, R. Shao, J. E. Maclennan, M. A. Glaser, E. Korblova, D. M. Walba, N. Gimeno,
M. B. Ros, and N. A. Clark, “Topography of bent-core liquid crystals at the air/liquid
crystal interface,” Liq. Cryst., 40, 1730 (2013). (Invited paper)
(14) D. Chen, J. H. Porada, J. B. Hooper, A. Klittnick, Y. Shen, M. R. Tuchband, E. Korblova, D. Bedrov,
D. M. Walba, M. A. Glaser, J. E. Maclennan, and N. A. Clark, “Chiral heliconical ground state of
nanoscale pitch in a nematic liquid crystal of achiral molecular dimers,”
Proc. Natl. Acad. Sci., 110, 15931 (2013).
(13) E. Tsai, J. M. Richardson, E. Korblova, M. Nakata, D. Chen, Y. Shen, R. Shao, N. A. Clark,
and D. M. Walba, “A modulated helical nanofilament phase,” Angew. Chem. Int. Ed.,
52, 5254 (2013).
(12) H. Kim, Y. Yi, D. Chen, E. Korblova, D. M. Walba, N. A. Clark, and D. K. Yoon, “Self-assembled
hydrophobic surface generated from a helical nanofilament (B4) liquid crystal phase,”
Soft Matter, 9, 2793 (2013).
(11) D. Chen, C. Zhu, H. Wang, J. E. Maclennan, M. A. Glaser, E. Korblova, D. M. Walba, J. A. Rego,
E. A. Soto-Bustamante, and N. A. Clark, “Nanoconfinement of guest materials by helical
nanofilament networks of bent-core mesogens,” Soft Matter, 9, 462 (2013).
(10) C. Zhu, R. Shao, R. A. Reddy, D. Chen, Y. Shen, T. Gong, M. A. Glaser, E. Korblova, P. Rudquist,
J. E. Maclennan, D. M. Walba, and N. A. Clark, “Topological ferroelectric bistability in a
polarization-modulated orthogonal smectic liquid crystal,” J. Am. Chem. Soc., 134, 9681 (2012).
(9) M. Nakata, D. Chen, R. Shao, E. Korblova, J. E. Maclennan, D. M. Walba, and N. A. Clark,
"Electro-Optic Response of the Anticlinic, Antiferroelectric Liquid Crystal Phase of a Biaxial
Bent-Core Molecule with Tilt Angle near 45o,"Phys. Rev. E., 85, 031704 (2012).
(8) D. Chen, M.-S. Heberling, M. Nakata, L. E. Hough, J. E. Maclennan, M. A. Glaser, E. Korblova,
D. M. Walba, J. Watanabe, and N. A. Clark, “Structure of the B4 liquid crystal phase near
a glass surface,” ChemPhysChem, 13, 155 (2012). (Featured on cover)
(7) D. Chen, J. E. Maclennan, R. Shao, D. K. Yoon, H. Wang, E. Korblova, D. M. Walba, M. A. Glaser,
and N. A. Clark, “Chirality-preserving growth of helical filaments in the B4 phase of bent-core
liquid crystals,” J. Am. Chem. Soc., 133, 12656 (2011).
(6) D. Chen, Y. Shen, C. Zhu, L. E. Hough, N. Gimeno, M. A. Glaser, J. E. Maclennan, M. B. Ros,
and N. A. Clark, “Interface Structure of the Dark Conglomerate Phase,” Soft Matter, 7, 1879 (2011).
(5) D. K. Yoon, R. Deb, D. Chen, E. Korblova, R. Shao, K. Ishikawa, N. V. S. Rao, D. M. Walba,
I. I. Smalyukh, and N. A. Clark, “Organization of the Polarization Splay Modulated Smectic
Phases by Topographic Confinement,” Proc. Natl. Acad. Sci., 107, 21311 (2010).
(4) D. Chen, C. Zhu, R. K. Shoemaker, E. Korblova, D. M. Walba, M. A. Glaser, J. E. Maclennan,
and N. A. Clark, “Pretransitional orientational ordering of a calamitic liquid crystal by helical
nanofilaments of a bent-core mesogen,” Langmuir, 26, 15541 (2010).
(3) R. Deb, R. K. Nath, M. K. Paul, N. V. S. Rao, F. Tuluri, Y. Shen, R. Shao, D. Chen, C. Zhu,
I. I. Smalyukh, and N. A. Clark, “Four-ring achiral unsymmetrical bent core moleculesforming
strongly fluorescent smectic liquid crystals with spontaneous polar and chiral ordered B7 and
B1 phases,” J. Mater. Chem., 20, 7332 (2010).
(2) C. Zhu, D. Chen, Y. Shen, C. D. Jones, M. A. Glaser, J. E. Maclennan, and N. A. Clark, “Nanophase
segregation in binary mixtures of a bent-core and a rodlike liquid crystal molecule,”
Phys. Rev. E, 81, 011704 (2010).
(1) L. E. Hough, H. T. Jung, D. Krüerke, M. S. Heberling, M. Nakata, C. D. Jones, D. Chen, D. R. Link,
J. Zasadzinski, G. Heppke, J. P. Rabe, W. Stocker, E. Korblova, D. M. Walba, M. A. Glaser,
and N. A. Clark, “Helical nanofilament phases,” Science, 325, 456 (2009).