Page 33 - 《华中农业大学学报(自然科学版)》2022年第2期
P. 33
28 华 中 农 业 大 学 学 报 第 41 卷
chromium terephthalate-based solid with unusually large pore vol⁃ aqueous molecular hosts:unusual regioselectivity and efficient
umes and surface area[J].Science,2005,309(5743):2040-2042. catalysis[J].Science,2006,312(5771):251-254.
[14] JOSEPH J,IFTEKHAR S,SRIVASTAVA V,et al. Iron- [29] MURASE T,HORIUCHI S,FUJITA M. Naphthalene Diels-
based metal-organic framework:Synthesis,structure and current Alder in a self-assembled molecular flask[J]. Journal of the
technologies for water reclamation with deep insight into frame⁃ American Chemical Society,2010,132(9):2866-2867.
work integrity[J/OL].Chemosphere,2021,284:131171[2021- [30] DHAKSHINAMOORTHY A,ALVARO M,GARCIA H.
11-28].https://doi.org/10.1016/j.chemosphere.2021.131171. Claisen-Schmidt condensation catalyzed by metal-organic frame⁃
[15] NI Z,MASEL R I. Rapid production of metal-organic frame⁃ works[J]. Advanced synthesis & catalysis,2010,352(4):
works via microwave-assisted solvothermal synthesis[J].Journal 711-717.
of the American Chemical Society,2006,128(38):12394-12395. [31] JOHNSON J A,PETERSEN B M,KORMOS A,et al.A new
[16] DANG S,MA E,SUN Z M,et al.A layer-structured Eu-MOF approach to non-coordinating anions:lewis acid enhancement of
3+
as a highly selective fluorescent probe for Fe detection porphyrin metal centers in a zwitterionic metal-organic frame⁃
through a cation-exchange approach[J]. Journal of materials work[J].Journal of the American Chemical Society,2016,138
chemistry,2012,22(33):16920-16926. (32):10293-10298.
[17] HAO J N,YAN B. A water-stable lanthanide-functionalized [32] HORCAJADA P,SERRE C,VALLET-REGÍ M,et al.Metal-
MOF as a highly selective and sensitive fluorescent probe for organic frameworks as efficient materials for drug delivery[J].
2+
Cd [J].Chemical communications,2015,51(36):7737-7740. Angewandte chemie international edition,2006,45(36):5974-
[18] LÜ R,CHEN Z,FU X,et al. A highly selective and fast-re⁃ 5978.
sponse fluorescent probe based on Cd-MOF for the visual detec⁃ [33] BAUER S,SERRE C,DEVIC T,et al.High-throughput assist⁃
tion of Al 3+ ion and quantitative detection of Fe 3+ ion[J].Jour⁃ ed rationalization of the formation of metal organic frameworks
nal of solid state chemistry,2018,259:67-72. in the iron(Ⅲ)aminoterephthalate solvothermal system[J].In⁃
[19] MCKINLAY A,MORRIS R,HORCAJADA P,et al. Bio⁃ organic chemistry,2008,47(17):7568-7576.
MOFs:metal-organic frameworks for biological and medical ap⁃ [34] HU Q,YU J C,LIU M,et al.A low cytotoxic cationic metal-or⁃
plications[J].Angewandte chemie international edition,2010,49 ganic framework carrier for controllable drug release[J].Journal
(36):6260-6266. of medicinal chemistry,2014,57(13):5679-5685.
[20] GAO Y H,LIANG Y,ZHOU Z Y,et al.Metal-organic framework [35] ZHENG H Q,ZHANG Y N,LIU L F,et al.One-pot synthesis
nanohybrid carrier for precise pesticide delivery and pest manage⁃ of metal-organic frameworks with encapsulated target molecules
ment[J/OL]. Chemical engineering journal,2021,422:130143 and their applications for controlled drug delivery[J].Journal of
[2021-11-28].https://doi.org/10.1016/j.cej.2021.130143. the American Chemical Society,2016,138(3):962-968.
[21] FURUKAWA H,KO N,GO Y B,et al. Ultrahigh porosity in [36] CHOWDHURY M A.Metal-organic-frameworks for biomedical
metal-organic frameworks[J]. Science,2010,329(5990) : applications in drug delivery,and as MRI contrast agents[J].
424-428. Journal of biomedical materials research part A,2017,105(4):
[22] EDDAOUDI M,KIM J,ROSI N,et al. Systematic design of 1184-1194.
pore size and functionality in isoreticular MOFs and their applica⁃ [37] RIETER W J,TAYLOR K M L,AN H Y,et al. Nanoscale
tion in methane storage[J].Science,2002,295(5554):469-472. metal-organic frameworks as potential multimodal contrast en⁃
[23] SIBERIO-PÉREZ D Y,WONG-FOY A G,YAGHI O M,et hancing agents[J]. Journal of the American Chemical Society,
al.Raman spectroscopic investigation of CH 4 and N 2 adsorption 2006,128(28):9024-9025.
in metal-organic frameworks[J].Chemistry of materials,2007, [38] PAUL G,PRADO Y,DIA N D,et al.Mn(Ⅱ)-containing coor⁃
19(15):3681-3685. dination nanoparticles as highly efficient T(1)contrast agents
[24] ROSI N L,KIM J,EDDAOUDI M,et al. Rod packings and for magnetic resonance imaging[J].Chemical communications,
metal-organic frameworks constructed from rod-shaped second⁃ 2014,50(51):6740-6743.
ary building units[J].Journal of the American Chemical Society, [39] LIU D M,HE C B,POON C,et al.Theranostic nanoscale coor⁃
2005,127(5):1504-1518. dination polymers for magnetic resonance imaging and bisphos⁃
[25] WU H,ZHOU W,YILDIRIM T.High-capacity methane stor⁃ phonate delivery[J]. Journal of materials chemistry B,2014,2
age in metal-organic frameworks M 2 (dhtp):the important role (46):8249-8255.
of open metal sites[J].Journal of the American Chemical Soci⁃ [40] ZHANG B C,LUO Y G,KANYUCK K,et al.Development of
ety,2009,131(13):4995-5000. metal-organic framework for gaseous plant hormone encapsula⁃
[26] BASTIN L,BÁRCIA P S,HURTADO E J,et al.A micropo⁃ tion to manage ripening of climacteric produce[J].Journal of ag⁃
rous metal-organic framework for separation of CO 2 /N 2 and ricultural and food chemistry,2016,64(25):5164-5170.
CO 2 /CH 4 by fixed-bed adsorption[J]. The journal of physical [41] WU K,DU C W,MA F,et al.Optimization of metal -organic
chemistry C,2008,112(5):1575-1581. (citric acid)frameworks for controlled release of nutrients[J].
[27] FADHEL A Z,POLLET P,LIOTTA C L,et al. Combining RSC advances,2019,9(55):32270-32277.
the benefits of homogeneous and heterogeneous catalysis with [42] YANG X,LI J,HOU Y W,et al.K 2 Fe(C 2 O 4 )(HPO 4 )(OH 2 )·
tunable solvents and nearcritical water[J].Molecules,2010,15 H 2 O:a layered oxalatophosphate hybrid material[J].Inorganica
(11):8400-8424. chimica acta,2008,361(5):1510-1514.
[28] YOSHIZAWA M,TAMURA M,FUJITA M. Diels-alder in [43] LIN H M,LII K H,JIANG Y C,et al.Organically templated in⁃
