���˽����֬�|Ĥ�����ļ������⣬�����ȿ��g߀�߶ȓ�D������ӣ����������N�oĤ��Һ�΅^�ң���ͨ�^���r����÷�����Һ����x�����یӣ��D1a����ͬ�r�����������یӣ���������ͻ�|�B��̎�l�F�����یӣ������T����ԪͨӍ�ȼ�������Ҳ���P��Ҫ���@Щ���ی�Һ�ο��lչ�����|�Ķ���Y����������ж���Һ���Һ���ΑB�ĺ�-���ӽY�����Ķ����ڵض�λ�ͷ��x����ͬ�������^�̼������o������Ĥ߅���{���������ܡ��w��ģ�M�����@Щ��Ȼ���ی��ΑB�����������s�Եĺϳ����یӾ��������������P��Ҫ����ͬ�ڽ���ľ�늽��|Һ����x�Ƃ�����ΑB�ĺϳ����یӣ�߅�������ڈF��_�l��һ�Nͨ�õĚ��I�Ӽ{�������ԽM�b����������Һ�ݻ��Į��|���یӣ��D1b����ԓ�����m���ھ��в�ͬ���W�M�ɵĽ���ʽ��-���{�����ӣ��D1c����
�D1.�{�����ӽM�b��Һ�ݻ����|���ی�ģ�M��Ȼ���یӵď��s�ԡ�
�����@�N�{�������ԽM�b����������Һ�ݻ����|���یӵIJ��ԣ��о��ɆT�C�������@�õļ{�����ӽM�b���یӰ�������l���·����ăȲ�Һ�ݣ����ṩ���x���^�Ҳ��錧���N����ӵĿ��g���|�ֲ����D2�����ⲿʩ�ӵęCе�������r�Ɖļ{�����ӽM�b���یӵĻ��|���������ӱ�������Һ���Є���һ���C�����ڣ��D2a-e����ͬ�r�{�����ӽM�b���یӻ��|�������ܼ�����ˮ�˺�PEG朵ĽM�b�{���w���ļ��ϣ����Գ䮔�߶ȓ�D�����ϣ����ڽӽ�ƽ��l�����Ȳ�Һ���c�܇��h�����x���D2f-i����
�D2.Һ�ݻ��ļ{�����ӽM�b���یӽ錧���N����ӵĿ��g���|�ֲ���
���⣬Һ�ݻ��ļ{�����ӽM�b���یӿ����ṩ���Еr�շ��Ӯ��|�Ե�����3D�g�������h�����ԕr���ܿصķ�ʽ�{�������О顣�����@�N�{�������ԽM�b���Կ����ƏV�����в�ͬ���W�M�ɵĺ˚��{�����ӣ��Ķ��ṩһ�N���ε�ͨ�õķ��������_���ƃ��H�ۺ����M�ж������یӽM�b�����Ҟ��о���Ȼ���یӵď��s���ṩ�·f��Ҋ�⡣�@��о��Y�����ڽ����ڡ�Advanced Materials���ԡ�Nanoparticle-Assembled Vacuolated Coacervates Control Macromolecule Spatiotemporal Distribution to Provide a Stable Segregated Cell Microenvironment������}�l����
ԓ������һ���ߞ�������Ĵ�W�����t�W����ϵ�w�i����ʿ��ͨӍ���ߞ�߅����������ԓ�����õ�����о��Y�����о��Y���֧�֡�
����朽ӣ�https://onlinelibrary.wiley.com/doi/full/10.1002/adma.202007209
߅�����L�������ڰlչ���M�{�ײ����cˮ���z�����������t�W�I��đ��ã�������u�����ˏĻ��A���όW�������t�W�о����t�������о��Ķ�������о���߅�����n�}�M�����ڸ�ˮƽ�W�g�ڿ��l����ƪՓ�ġ�
1. Bioadhesive hydrogels demonstrating pH-independent and ultrafast gelation promote gastric ulcer healing in pigs. Science Translational Medicine, 2020, 12, 558, eaba8014.
2. Immunoregulation of macrophages by dynamic ligand presentation via ligand-cation coordination. Nature Communications, 2019, volume 10, Article number: 1696.
3. Conformational manipulation of scale-up prepared single chain polymeric nanogels for multiscale regulation of cells. Nature Communications, 2019, volume 10, Article number: 2075.
4. Synthetic presentation of noncanonical Wnt5a motif promotes mechanosensing-dependent differentiation of stem cells and regeneration. Science Advances, 2019, 5: eaaw3896.
5. Dynamic and cell-infiltratable hydrogels as injectable carrier of therapeutic cells and drugs for treating challenging bone defects. ACS Central Science, 2019, 5 (3), pp 440�C50.
6. Anisotropic nanoscale presentation of cell adhesion ligand enhances the recruitment of diverse integrins in adhesion structures and mechanosensing-dependent differentiation of stem cells. Advanced Functional Materials, 2019, 1806822.
7. Remote control of heterodimeric magnetic nanoswitch regulates the adhesion and differentiation of stem cells. J. Am. Chem. Soc., 2018, 140 (18), 5909-5913.
8. Adaptable hydrogels mediate cofactor-assisted activation of biomarker-responsive drug delivery via positive feedback for enhanced tissue regeneration. Advanced Science, 2018 Dec; 5(12): 1800875.
9. Organic semiconducting polymer nanoparticles for photoacoustic labelling and tracking of stem cells in the second near-infrared window. ACS Nano, 2018, 12 (12), 12201�C2211.
10. In situ reversible heterodimeric nanoswitch controlled by metal ion-ligand coordination regulates the adhesion, release, and differentiation of stem cells. Advanced Materials, 2018, 30(44), adma.201803591.
