<\/p>\n

1, T\u00e0i li\u1ec7u thi\u00ean nhi\u00ean: Vi\u1ec7c s\u1eed d\u1ee5ng t\u1ed5ng h\u1ee3p phagocytosis c\u1ee7a t\u1ed5ng h\u1ee3p c\u00e1c h\u1ea1t keo ch\u1ee9c n\u0103ngUniversity of Bristol Stephen Mann (t\u00e1c gi\u1ea3) v\u00e0 nh\u1eefng ng\u01b0\u1eddi kh\u00e1c l\u1ea5y c\u1ea3m h\u1ee9ng t\u1eeb th\u1ef1c b\u00e0o t\u1ebf b\u00e0o, chu\u1ea9n b\u1ecb nh\u0169 t\u01b0\u01a1ng Pickering t\u1ef1 \u0111i\u1ec1u khi\u1ec3n (MPE), c\u00f3 th\u1ec3 \u0111\u01b0\u1ee3c ch\u1ecdn l\u1ecdc c\u00e1c h\u1ea1t silica gel. Sau khi \u0103n c\u00e1c h\u1ea1t keo c\u00f3 th\u1ec3 truy\u1ec1n v\u00e0 ch\u1ecdn l\u1ecdc ch\u1ea5t mang h\u00f2a tan trong n\u01b0\u1edbc n\u00e0y, trong khi c\u00e1c gi\u1ecdt MPE c\u0169ng c\u00f3 th\u1ec3 \u0111\u01b0\u1ee3c gh\u00e9p trong ho\u1ea1t \u0111\u1ed9ng c\u1ee7a enzyme. \u0110i\u1ec1u n\u00e0y cung c\u1ea5p m\u1ed9t s\u1ef1 m\u1eb7c kh\u1ea3i cho s\u1ef1 ph\u00e1t tri\u1ec3n c\u1ee7a c\u00e1c v\u1eadt li\u1ec7u m\u1edbi d\u1ef1a tr\u00ean ch\u1ea5t keo v\u00e0 cung c\u1ea5p m\u1ed9t quy \u0111\u1ecbnh micromet m\u1edbi \u0111\u1ec3 t\u1ed5ng h\u1ee3p h\u1ea1t \u0111\u1ec3 t\u1ea1o ra h\u00e0nh vi c\u00f3 tr\u1eadt t\u1ef1 cao. H\u00e0nh vi l\u1ea5y c\u1ea3m h\u1ee9ng t\u1eeb t\u1ebf b\u00e0o trong c\u00e1c c\u1ed9ng \u0111\u1ed3ng protocell t\u1ed5ng h\u1ee3p c\u1ee7a c\u00e1c v\u1eadt th\u1ec3 keo \u0111\u01b0\u1ee3c ng\u0103n c\u00e1ch \uff0c 2017: \uff0c Doi: 10.1038 \/ nmat4916 2, C\u00f4ng ngh\u1ec7 nano t\u1ef1 nhi\u00ean: C\u1ea5u tr\u00fac nano Glycopeptide \u0111\u01b0\u1ee3c s\u1eed d\u1ee5ng \u0111\u1ec3 k\u00edch ho\u1ea1t protein \u0111a ch\u1ee9c n\u0103ng \u0110\u1ea1i h\u1ecdc B\u1eafc M\u1ef9 Samuel I. Stupp (Ph\u00f3ng vi\u00ean) et al. C\u00e1c b\u00e1o c\u00e1o v\u1ec1 c\u1ea5u tr\u00fac nano glycopeptide sunfat ph\u00e2n t\u1eed si\u00eau ph\u00e2n t\u1eed gi\u00fap m\u1edf r\u1ed9ng t\u00edn hi\u1ec7u c\u1ee7a protein h\u00ecnh th\u00e1i x\u01b0\u01a1ng 2 t\u1ef1 nhi\u00ean h\u01a1n so v\u1edbi hapsin polysacarit sunfat t\u1ef1 nhi\u00ean, th\u00fac \u0111\u1ea9y t\u00e1i t\u1ea1o x\u01b0\u01a1ng c\u1ed9t s\u1ed1ng, m\u1eb7c d\u00f9 m\u00f4 h\u00ecnh \u0111\u1ed9ng v\u1eadt sinh h\u1ecdc \u00edt h\u01a1n trong t\u01b0\u01a1ng lai. nghi\u00ean c\u1ee9u s\u1ebd c\u00f3 nhi\u1ec1u \u1ee9ng d\u1ee5ng kh\u1ea3 thi h\u01a1n. C\u00e1c c\u1ea5u tr\u00fac nano glycopeptide \u0111\u01b0\u1ee3c k\u00edch ho\u1ea1t \u0111\u1ec3 k\u00edch ho\u1ea1t protein \u0111a n\u0103ng C\u00f4ng ngh\u1ec7 nano t\u1ef1 nhi\u00ean \uff0c 2017 \uff0c Doi: 10.1038 \/ nnano.2017.109 3, Bao g\u1ed3m h\u00f3a h\u1ecdc t\u1ef1 nhi\u00ean: \u0110\u1ea1i h\u1ecdc polymer polymer niken c\u1ee7a \u0110\u1ea1i h\u1ecdc Bristol Ian Manners (t\u00e1c gi\u1ea3) hai monome niken-niken th\u00f4ng qua ph\u1ea3n \u1ee9ng tr\u00f9ng h\u1ee3p m\u1edf v\u00f2ng \u0111\u1ec3 t\u1ea1o th\u00e0nh chu\u1ed7i ch\u00ednh c\u1ee7a polyme kim lo\u1ea1i c\u00f3 ch\u1ee9a poly-niken-niken, monome niken-niken do niken t\u01b0\u01a1ng \u0111\u1ed1i y\u1ebfu - C\u00f3 th\u1ec3 chuy\u1ec3n \u0111\u1ed5i t\u01b0\u01a1ng t\u00e1c gi\u1eefa t\u0129nh v\u00e0 \u0111\u1ed9ng kh\u00e1c \u0110\u1ed3ng th\u1eddi, nghi\u00ean c\u1ee9u cho th\u1ea5y h\u1ec7 th\u1ed1ng \u1edf n\u1ed3ng \u0111\u1ed9 th\u1ea5p h\u01a1n, l\u00e0m t\u0103ng nhi\u1ec7t \u0111\u1ed9 ho\u1eb7c s\u1ef1 t\u1ed3n t\u1ea1i c\u1ee7a dung m\u00f4i ph\u00e2n c\u1ef1c, s\u1ebd t\u1ea1o ra ph\u1ea3n \u1ee9ng tr\u00f9ng h\u1ee3p poly-lignocene. V\u1eadt li\u1ec7u t\u1eeb t\u00ednh t\u1ed5ng h\u1ee3p c\u00f3 kh\u1ea3 n\u0103ng l\u01b0u tr\u1eef v\u00e0 truy xu\u1ea5t d\u1eef li\u1ec7u. C\u00e1c kim lo\u1ea1i chu\u1ed7i ch\u00ednh \u1edf ranh gi\u1edbi \u0111\u1ed9ng t\u0129nh t\u0129nh d\u1ef1a tr\u00ean nikenocene \uff08H\u00f3a h\u1ecdc t\u1ef1 nhi\u00ean \uff0c 2017 \uff0c Doi: 10.1038 \/ nCH.2743\uff09 4, JACS bao g\u1ed3m: gi\u1ea3m \u0111\u01a1n polymer , ph\u01b0\u01a1ng ph\u00e1p ph\u1ed5 bi\u1ebfn n\u0103ng l\u01b0\u1ee3ng ba tr\u1ea1ng th\u00e1i Andrew J. Musser v\u00e0 Richard H. Ng\u01b0\u1eddi b\u1ea1n c\u1ee7a \u0110\u1ea1i h\u1ecdc Cambridge v\u00e0 Hugo Bronstein (\u0111\u1ed3ng t\u00e1c gi\u1ea3 c\u1ee7a \u0110\u1ea1i h\u1ecdc London), ng\u01b0\u1eddi \u0111\u00e3 gi\u1edbi thi\u1ec7u m\u1ed9t ph\u01b0\u01a1ng ph\u00e1p ph\u1ed5 qu\u00e1t \u0111\u1ec3 gi\u1ea3m n\u0103ng l\u01b0\u1ee3ng ba tr\u1ea1ng th\u00e1i \u0111\u01a1n s\u1ef1 kh\u00e1c bi\u1ec7t v\u1ec1 polyme li\u00ean h\u1ee3p, v\u00e0 c\u00e1c th\u1ee5 th\u1ec3 \u0111\u01b0\u1ee3c k\u1ebft n\u1ed1i tr\u1ef1c giao v\u1edbi c\u00e1c electron v\u00e0 l\u1ed7 tr\u1ed1ng ri\u00eang bi\u1ec7t v\u1ec1 m\u1eb7t kh\u00f4ng gian. Ph\u01b0\u01a1ng ph\u00e1p n\u00e0y cho ph\u00e9p polyme li\u00ean h\u1ee3p gi\u1ea3m \u0111\u00e1ng k\u1ec3 n\u0103ng l\u01b0\u1ee3ng trao \u0111\u1ed5i, th\u00fac \u0111\u1ea9y s\u1ef1 h\u00ecnh th\u00e0nh b\u1ed9 ba v\u00e0 hu\u1ef3nh quang b\u1ecb tr\u00ec ho\u00e3n nhi\u1ec7t, c\u01a1 ch\u1ebf c\u1ee7a hai qu\u00e1 tr\u00ecnh n\u00e0y th\u00f4ng qua tr\u1ea1ng th\u00e1i k\u00edch th\u00edch \u03c0 - \u03c0 * v\u00e0 v\u1eadn chuy\u1ec3n \u0111i\u1ec7n t\u00edch gi\u1eefa \u1ed5 h\u1ed7n h\u1ee3p. S\u1ef1 t\u1ed5ng h\u1ee3p v\u00e0 \u0110\u1ed9ng l\u1ef1c h\u1ecdc Exciton c\u1ee7a c\u00e1c nh\u00e0 t\u00e0i tr\u1ee3 C\u00e1c polyme li\u00ean h\u1ee3p c\u1ee7a nh\u00e0 t\u00e0i tr\u1ee3: Gi\u1ea3m c\u00e1c kho\u1ea3ng c\u00e1ch n\u0103ng l\u01b0\u1ee3ng c\u1ee7a b\u1ed9 ba \u0111\u01a1n l\u1ebb \uff08JACS \uff0c 2017 DOI: 10.1021 \/ jacs.7b03327 5, JACS bao g\u1ed3m: qu\u00e1 tr\u00ecnh oxy h\u00f3a c\u1ee7a Cu-Oxo ) et al. S\u1eed d\u1ee5ng l\u1eafng \u0111\u1ecdng l\u1edbp nguy\u00ean t\u1eed \u0111\u1ec3 l\u1eafng \u0111\u1ecdng c\u00e1c oxit \u0111\u1ed3ng tr\u00ean c\u00e1c n\u00fat kim lo\u1ea1i c\u1ee7a MOF NU-1000, x\u00fac t\u00e1c qu\u00e1 tr\u00ecnh oxy h\u00f3a metan trong \u0111i\u1ec1u ki\u1ec7n nh\u1eb9 \u0111\u1ec3 t\u1ea1o ra metanol, \u0111\u1ed9 ch\u1ecdn l\u1ecdc \u0111\u1ebfn 45-60%. Cu-oxo \u0111\u01b0\u1ee3c h\u1ed7 tr\u1ee3 tr\u00ean MOF l\u00e0 m\u1ed9t c\u1ee5m nguy\u00ean t\u1eed \u0111\u01b0\u1ee3c h\u00ecnh th\u00e0nh b\u1edfi m\u1ed9t s\u1ed1 nguy\u00ean t\u1eed Cu v\u00e0 \u0111\u01b0\u1ee3c tr\u1ed9n \u1edf kho\u1ea3ng 15% Cu + v\u00e0 85% Cu2 + trong \u0111i\u1ec1u ki\u1ec7n kh\u00ed quy\u1ec3n. Qu\u00e1 tr\u00ecnh oxy h\u00f3a th\u00e0nh Metanol \u0111\u01b0\u1ee3c x\u00fac t\u00e1c b\u1edfi c\u00e1c c\u1ee5m Cu-Oxo \u0111\u01b0\u1ee3c \u1ed5n \u0111\u1ecbnh trong NU-1000 Khung h\u1eefu c\u01a1 \uff08JACS \uff0c 2017 DOI: 10.1021 \/ jacs.7b02936 6, Angew. H\u00f3a. N\u1ed9i b\u1ed9 Ed. \u0110\u1ed9 che ph\u1ee7: T\u01b0\u01a1ng t\u00e1c gi\u1eefa aromatic-perfluoro th\u01a1m v\u00e0 v\u1eadn chuy\u1ec3n \u0111i\u1ec7n t\u00edch trong c\u00e1c h\u1ec7 th\u1ed1ng c\u00f4 \u0111\u1eb7c h\u1eefu c\u01a1 (Pyrene-OFN) v\u00e0 pyrene-TCNB \u0111\u01b0\u1ee3c t\u1ed5ng h\u1ee3p b\u1eb1ng c\u00e1ch t\u1ef1 l\u1eafp r\u00e1p si\u00eau ph\u00e2n t\u1eed c\u1ee7a hai pyren-pyrene-pyrene-OFNs h\u1eefu c\u01a1 ph\u00e1t quang \u0111i\u1ec3n h\u00ecnh. N\u00f3 \u0111\u00e3 \u0111\u01b0\u1ee3c t\u00ecm th\u1ea5y r\u1eb1ng hai ch\u1ebf \u0111\u1ed9 t\u01b0\u01a1ng t\u00e1c gi\u1eefa c\u00e1c t\u1ebf b\u00e0o th\u1ec3 hi\u1ec7n c\u00e1c t\u00ednh ch\u1ea5t quang h\u1ecdc kh\u00e1c nhau, c\u1ee5 th\u1ec3 l\u00e0, th\u01a1m aromatic-perfluoro (AP) v\u00e0 t\u01b0\u01a1ng t\u00e1c v\u1eadn chuy\u1ec3n \u0111i\u1ec7n t\u00edch (CT). V\u00e0 m\u1ed1i quan h\u1ec7 c\u1ea1nh tranh gi\u1eefa hai ph\u00e2n t\u1eed kh\u00e1c nhau n\u00e0y c\u00f3 th\u1ec3 \u0111\u01b0\u1ee3c s\u1eed d\u1ee5ng \u0111\u1ec3 t\u1ea1o ra c\u00e1c h\u1ec7 th\u1ed1ng c\u00f4 \u0111\u1eb7c h\u1eefu c\u01a1 ph\u1ee9c t\u1ea1p h\u01a1n. S\u1ef1 c\u1ea1nh tranh gi\u1eefa Arene Th\u1ebb Perfluoroarene v\u00e0 T\u01b0\u01a1ng t\u00e1c chuy\u1ec3n \u0111i\u1ec7n t\u00edch trong c\u00e1c h\u1ec7 th\u1ed1ng thu ho\u1ea1ch \u00e1nh s\u00e1ng h\u1eefu c\u01a1 \uff08Angew. H\u00f3a. N\u1ed9i b\u1ed9 Ed. \uff0c 2017 DOI: 10.1002 \/ anie.201702084 7, Angew. H\u00f3a. N\u1ed9i b\u1ed9 Ed. B\u00eca: micromet r\u1ed7ng trong su\u1ed1t \u0111\u1ec3 c\u1ea3i thi\u1ec7n \u0111\u1ed9 ch\u1ecdn l\u1ecdc ph\u00e1t quang phi tuy\u1ebfn c\u1ea3i thi\u1ec7n \u0110\u1ea1i h\u1ecdc Th\u00e0nh ph\u1ed1 Kong Kong Feng Wang (Ph\u00f3ng vi\u00ean) et al. Chu\u1ea9n b\u1ecb c\u1ea5u tr\u00fac micromet r\u1ed7ng m\u1ed9t chi\u1ec1u b\u1eb1ng c\u00e1ch \u0111i\u1ec1u khi\u1ec3n \u0111\u1ed9ng h\u1ecdc c\u1ee7a qu\u00e1 tr\u00ecnh t\u0103ng tr\u01b0\u1edfng tinh th\u1ec3 v\u00e0 t\u1ed5ng h\u1ee3p c\u00e1c thanh micromet h\u00ecnh l\u1ee5c gi\u00e1c NaYbF4 d\u1ecdc theo tr\u1ee5c d\u1ecdc b\u1eb1ng ph\u01b0\u01a1ng ph\u00e1p th\u1ee7y nhi\u1ec7t. \u0110\u1ed3ng th\u1eddi, t\u1eeb s\u1ef1 t\u00e1n x\u1ea1 \u00e1nh s\u00e1ng v\u00e0 s\u1ef1 ph\u1ea3n x\u1ea1 c\u1ee7a th\u00e0nh b\u00ean trong giao thoa l\u1eabn nhau c\u00f3 th\u1ec3 \u0111\u1ea1t \u0111\u01b0\u1ee3c th\u00f4ng qua c\u00e1c thanh si\u00eau nh\u1ecf \u0111\u1ec3 ki\u1ec3m so\u00e1t m\u1eadt \u0111\u1ed9 quang h\u1ecdc. C\u00e1c tinh th\u1ec3 r\u1ed7ng Microrods \u0111\u1ec3 t\u0103ng c\u01b0\u1eddng ch\u1ecdn l\u1ecdc t\u1ea1i ch\u1ed7 c\u1ee7a quang \u0111i\u1ec7n phi tuy\u1ebfn \uff08Angew. H\u00f3a. N\u1ed9i b\u1ed9 Ed. \uff0c 2017 DOI: 10.1002 \/ anie.201703600 8, Adv. V\u1eadt ch\u1ea5t. \u1ea2nh b\u00eca: Gi\u1ea3m \u00e1nh s\u00e1ng \u1ed1ng nano Bi5O7Br si\u00eau m\u1ecfng N2 Gi\u00e1o s\u01b0 Chen Hao c\u1ee7a \u0110\u1ea1i h\u1ecdc N\u00f4ng nghi\u1ec7p Huazhong v\u00e0 Gi\u00e1o s\u01b0 Ye Jinhua, th\u00e0nh vi\u00ean c\u1ee7a Vi\u1ec7n Khoa h\u1ecdc V\u1eadt li\u1ec7u Qu\u1ed1c gia, Nh\u1eadt B\u1ea3n, \u0111\u00e3 t\u1ed5ng h\u1ee3p c\u00e1c \u1ed1ng nano Bi5O7Br c\u00f3 \u0111\u01b0\u1eddng k\u00ednh 5nm. V\u1eadt li\u1ec7u n\u00e0y c\u00f3 c\u1ea5u tr\u00fac \u1ed1ng nano m\u1ea1nh, gi\u1edbi h\u1ea1n h\u1ea5p th\u1ee5 ph\u00f9 h\u1ee3p v\u00e0 \u0111\u01b0\u1ee3c ti\u1ebfp x\u00fac Nhi\u1ec1u v\u1ecb tr\u00ed b\u1ec1 m\u1eb7t gi\u00fap cung c\u1ea5p \u0111\u1ee7 ch\u1ed7 tr\u1ed1ng oxy g\u00e2y ra \u00e1nh s\u00e1ng c\u00f3 th\u1ec3 nh\u00ecn th\u1ea5y \u0111\u1ec3 gi\u1ea3m \u00e1nh s\u00e1ng N2 trong kh\u00ed quy\u1ec3n v\u00e0o n\u01b0\u1edbc tinh khi\u1ebft. C\u00e1c ch\u1ed7 tr\u1ed1ng oxy c\u00f3 th\u1ec3 chuy\u1ec3n \u0111\u1ed5i trong Ultrafine Bi5O7Br Nanotubes \u0111\u1ec3 t\u0103ng c\u01b0\u1eddng c\u1ed1 \u0111\u1ecbnh \u0111\u1ea1m ch\u1ea1y b\u1eb1ng n\u0103ng l\u01b0\u1ee3ng m\u1eb7t tr\u1eddi trong n\u01b0\u1edbc tinh khi\u1ebft \uff08Adv. Ph\u01b0\u01a1ng ti\u1ec7n. \uff0c 2017 DOI: 10.1002 \/ adma.201701774 9, Adv. V\u1eadt ch\u1ea5t. \u1ea2nh b\u00eca: Hi\u1ec7u su\u1ea5t chuy\u1ec3n \u0111\u1ed5i n\u0103ng l\u01b0\u1ee3ng cao c\u1ee7a pin m\u1eb7t tr\u1eddi d\u1ecb h\u1ee3p WSe2-MoS2 Lih-Juann Chen, \u0110\u1ea1i h\u1ecdc Qu\u1ed1c gia Tsinghua, v\u00e0 Jr-Hau He (\u0111\u1ed3ng t\u00e1c gi\u1ea3), \u0110\u1ea1i h\u1ecdc Khoa h\u1ecdc v\u00e0 C\u00f4ng ngh\u1ec7 King Abdullah, et al. Chu\u1ea9n b\u1ecb m\u1ed9t s\u1ef1 t\u0103ng tr\u01b0\u1edfng li\u00ean t\u1ee5c c\u1ee7a c\u00e1c d\u1ecb v\u00f2ng pn WSe2-MoS2 m\u1ed9t l\u1edbp kh\u00f4ng h\u1ee3p kim v\u00e0 nghi\u00ean c\u1ee9u t\u00ednh ch\u1ea5t quang \u0111i\u1ec7n c\u1ee7a ch\u00fang, Trong \u00e1nh s\u00e1ng AM 1.5G, v\u1eadt li\u1ec7u cho th\u1ea5y hi\u1ec7u su\u1ea5t chuy\u1ec3n \u0111\u1ed5i n\u0103ng l\u01b0\u1ee3ng l\u00e0 2.56%. Di\u1ec7n t\u00edch b\u1ec1 m\u1eb7t l\u1edbn cho ph\u00e9p khu v\u1ef1c r\u00e0o c\u1ea3n \u0111\u01b0\u1ee3c ph\u01a1i b\u00e0y ho\u00e0n to\u00e0n, d\u1eabn \u0111\u1ebfn c\u00e1c \u0111\u1eb7c t\u00ednh thu th\u1eadp \u00e1nh s\u00e1ng \u0111a h\u01b0\u1edbng tuy\u1ec7t v\u1eddi v\u1edbi hi\u1ec7u su\u1ea5t ch\u1ec9 5% khi g\u00f3c t\u1edbi cao t\u1edbi 75 \u00b0 .Slele Nguy\u00ean t\u1eed s\u1eafc b\u00e9n b\u00ean c\u1ea1nh N\u0103ng l\u01b0\u1ee3ng m\u1eb7t tr\u1eddi \u0111\u01a1n s\u1eafc v\u1edbi n\u0103ng l\u01b0\u1ee3ng c\u1ef1c cao Hi\u1ec7u qu\u1ea3 chuy\u1ec3n \u0111\u1ed5i \uff08Adv. Ph\u01b0\u01a1ng ti\u1ec7n. \uff0c 2017 DOI: 10.1002 \/ adma.201701168 10, Adv. N\u0103ng l\u01b0\u1ee3ng v\u1eadt ch\u1ea5t. V\u1ecf b\u1ecdc: Than ch\u00ec nh\u00fang silicon m\u1ed9t l\u1edbp cho pin Li-ion M\u1ed9t \u0111i\u1ec7n c\u1ef1c h\u1ed7n h\u1ee3p than ch\u00ec \/ carbon nh\u00fang Si (G \/ SGC) \u0111\u01b0\u1ee3c ch\u1ebf t\u1ea1o b\u1edfi Minseong Ko v\u00e0 Jaephil Cho (\u0111\u1ed3ng t\u00e1c gi\u1ea3 c\u1ee7a Vi\u1ec7n Khoa h\u1ecdc v\u00e0 C\u00f4ng ngh\u1ec7 Qu\u1ed1c gia), H\u00e0n Qu\u1ed1c. V\u00e0 c\u00e1c \u0111i\u1ec7n c\u1ef1c \u0111\u01b0\u1ee3c so s\u00e1nh v\u1edbi c\u00e1c v\u1eadt li\u1ec7u th\u01b0\u01a1ng m\u1ea1i c\u00f3 s\u1eb5n trong c\u00f9ng \u0111i\u1ec1u ki\u1ec7n. B\u1edfi v\u00ec SGC c\u00f3 kh\u1ea3 n\u0103ng t\u01b0\u01a1ng th\u00edch t\u1ed1t v\u1edbi than ch\u00ec truy\u1ec1n th\u1ed1ng v\u00e0 c\u00e1c \u0111\u1eb7c \u0111i\u1ec3m c\u1ea5u tr\u00fac c\u1ee7a SGC c\u0169ng r\u1ea5t t\u1ed1t \u0111\u1ec3 x\u00e1c \u0111\u1ecbnh, do \u0111\u00f3 c\u00f3 m\u1ed9t tri\u1ec3n v\u1ecdng \u1ee9ng d\u1ee5ng ti\u1ec1m n\u0103ng. \u0110i\u1ec1u n\u00e0y c\u0169ng g\u00f3p ph\u1ea7n v\u00e0o vi\u1ec7c nghi\u00ean c\u1ee9u v\u00e0 ph\u00e1t tri\u1ec3n pin lithium-ion n\u0103ng l\u01b0\u1ee3ng cao V\u1eadt li\u1ec7u c\u1ef1c d\u01b0\u01a1ng d\u1ef1a tr\u00ean Si. So s\u00e1nh gi\u1eefa c\u00e1c \u0111i\u1ec7n c\u1ef1c \u00e2m \u0111\u01b0\u1ee3c tr\u1ed9n b\u1eb1ng than ch\u00ec s\u1eed d\u1ee5ng v\u1eadt li\u1ec7u than ch\u00ec nh\u00fang nano Nanolayer so v\u1edbi v\u1eadt li\u1ec7u chu\u1ea9n h\u00f3a th\u01b0\u01a1ng m\u1ea1i cho lithium n\u0103ng l\u01b0\u1ee3ng cao Pin ion \uff08Adv. Ph\u01b0\u01a1ng ti\u1ec7n n\u0103ng l\u01b0\u1ee3ng. \uff0c 2017 DOI: 10.1002 \/ aenm.201700071
\nNgu\u1ed3n: Meeyou cacbua<\/p>\n

<\/body><\/html><\/div>\n

<\/p>","protected":false},"excerpt":{"rendered":"

1, Nature Materials Cover: The use of “phagocytosis” synthesis of functional colloidal particlesUniversity of Bristol Stephen Mann (author) and other people inspired by cell phagocytosis, the preparation of self-driven magnetic Pickering emulsion (MPE), can be selective intake of silica gel particles. After the intake of colloidal particles can selectively transmit and release this water-soluble carrier,…<\/p>","protected":false},"author":1,"featured_media":1618,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[79,1],"tags":[],"jetpack_featured_media_url":"","jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/posts\/18533"}],"collection":[{"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/comments?post=18533"}],"version-history":[{"count":0,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/posts\/18533\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/posts\/1618"}],"wp:attachment":[{"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/media?parent=18533"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/categories?post=18533"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.meetyoucarbide.com\/vi\/wp-json\/wp\/v2\/tags?post=18533"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}