《Nature》杂志创刊于1869年,由英国自然出版集团发行,是全球最具影响力的科学期刊之一。MOFs自1990年代逐渐受到关注以来,历经三十余年发展,相关论文数以万计。然而,当中能发表在《Nature》杂志上的不过半百,平均一年不足两篇。参考借鉴Nature论文的科研思路,定会有助于广大科研人员的研究水平。基于此,笔者整理收集了近三十年来(1994-2024)来发表于Nature杂志中的MOF相关论文共34篇(按发表时间倒序排列),并附有各大学术公众号的中文解读,以飨读者!
2024
1. Porous isoreticular non-metal organic frameworks. Nature 2024, 630 (8015), 102-108. 中文解读1,中文解读2
2023
2. A ligand insertion mechanism for cooperative NH3 capture in metal–organic frameworks. Nature 2023, 613 (7943), 287-291. 中文解读
2022
3. Intrinsic glassy-metallic transport in an amorphous coordination polymer. Nature 2022, 611 (7936), 479-484. 中文解读
4. Separating water isotopologues using diffusion-regulatory porous materials. Nature 2022, 611 (7935), 289-294. 中文解读
5. Microporous water with high gas solubilities. Nature 2022, 608 (7924), 712-718. 中文解读1,中文解读2,中文解读3,中文解读4
6. Asymmetric pore windows in MOF membranes for natural gas valorization. Nature 2022, 606 (7915), 706-712. 中文解读
2021
7. An elastic metal-organic crystal with a densely catenated backbone. Nature 2021, 598 (7880), 298-303. 中文解读
8. Orthogonal-array dynamic molecular sieving of propylene/propane mixtures. Nature 2021, 595 (7868), 542-548. 中文解读1,中文解读2
2020
9. Filling metal-organic framework mesopores with TiO2 for CO2 photoreduction. Nature 2020, 586 (7830), 549-554. 中文解读
10. Enhancing crystal growth using polyelectrolyte solutions and shear flow. Nature 2020, 579 (7797), 73-79. 中文解读
11. Confinement of atomically defined metal halide sheets in a metal-organic framework. Nature 2020, 577 (7788), 64-68. 中文解读
2019
12. Data-driven design of metal-organic frameworks for wet flue gas CO2 capture. Nature 2019, 576 (7786), 253-256. 中文解读
13. Chemical control of structure and guest uptake by a conformationally mobile porous material. Nature 2019, 565 (7738), 213-217. 中文解读
2018 (无,欢迎补充)
2017
14. A spin transition mechanism for cooperative adsorption in metal-organic frameworks. Nature 2017, 550 (7674), 96-100. 中文解读1,中文解读2
15. Predicting crystal growth via a unified kinetic three-dimensional partition model. Nature 2017, 544 (7651), 456-459. 中文解读
2016
16. Metal-organic frameworks as selectivity regulators for hydrogenation reactions. Nature 2016, 539 (7627), 76-80. 中文解读1,中文解读2,中文解读3,中文解读4
17. A pressure-amplifying framework material with negative gas adsorption transitions. Nature 2016, 532 (7599), 348-52. 中文解读1,中文解读2
2015
18. Extra adsorption and adsorbate superlattice formation in metal-organic frameworks. Nature 2015, 527 (7579), 503-507. 中文解读1,中文解读2
19. Methane storage in flexible metal-organic frameworks with intrinsic thermal management. Nature 2015, 527 (7578), 357-361. 中文解读
20. Cooperative insertion of CO2 in diamine-appended metal-organic frameworks. Nature 2015, 519 (7543), 303-308. 中文解读
2014,2012-2009,2007-2006,2001,1998-1996 (无,欢迎补充)
2013
21. Thermal maps of gases in heterogeneous reactions. Nature 2013, 502 (7472), 537-540.
22. Porous materials with optimal adsorption thermodynamics and kinetics for CO2 separation. Nature 2013, 495 (7439), 80-84.
2008
23. Colossal cages in zeolitic imidazolate frameworks as selective carbon dioxide reservoirs. Nature 2008, 453 (7192), 207-211.
2005
24. Chemically tailorable colloidal particles from infinite coordination polymers. Nature 2005, 438 (7068), 651-654.
25. Highly controlled acetylene accommodation in a metal-organic microporous material. Nature 2005, 436 (7048), 238-241.
2004
26. A route to high surface area, porosity and inclusion of large molecules in crystals. Nature 2004, 427 (6974), 523-527.
2003
27. Reticular synthesis and the design of new materials. Nature 2003, 423 (6941), 705-714.
2002
28. Ordered porous materials for emerging applications. Nature 2002, 417 (6891), 813-821.
2000
29. Coexistence of ferromagnetism and metallic conductivity in a molecule-based layered compound. Nature 2000, 408 (6811), 447-449.
30. A homochiral metal–organic porous material for enantioselective separation and catalysis. Nature 2000, 404 (6781), 982-986.
1999
31. Design and synthesis of an exceptionally stable and highly porous metal-organic framework.Nature 1999, 402 (6759), 276-279.
1995
32. Selective binding and removal of guests in a microporous metal–organic framework. Nature 1995, 378 (6558), 703-706.
33. Spontaneous assembly of a hinged coordination network. Nature 1995, 374 (6525), 792-795.
1994
34. Assembly of porphyrin building blocks into network structures with large channels. Nature 1994, 369 (6483), 727-729.
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