甄家劲

主要研究:
1) 利用机械力的手段研究和探索金属有机超分子自组装，包括超分子主体分子的设计与合成，主客体性质，超分子催化等

2) 开发利用机械力诱导的化学键断裂、生成的新手段和化学反应

独立课题组 (Independent work):

22. Huang, Z.; Wang, T.; Wang, S.;^* Yan, K.^* “Solvent-Free Mechanochemistry Oversimes Low Solubility of Inorganic Fluorides in the Construction of C-F and S-F Bonds.” Org. Lett. 2025, DOI: 10.1021/acs.orglett.5c04130.

21. Luo, H.;† Huang, Z.;† Lai, Y.-N.;† Jiang, Y,; Wang, T.; Yan, K.^* “Biasing Mechanistically-Distinct Reaction Pathways by Mechanochemistry.” RSC Mechanochem. 2026, DOI: 10.1039/D5MR00104H. †Contributed equally. 

20. Wang, P.;† Li, S.;† Liu, F.-Z.; Yan, K.^* “Mechanochemical Synthesis of Bent Metallacycles and Confinement Catalysis in the Solid-State.” RSC Mechanochem. 2026, accepted. †Contributed equally. 

19. Jiang, Y.;† Gu, X.;† Wang, T.; Yan, K.^* “Mechanoradical-Driven C-H Halogenation and Nitration of Arenes and Vicinal Dibromination of Alkenes in the Solid-State.” RSC Mechanochem. 2026, DOI: 10.1039/D5MR00094G. †Contributed equally. 

18. Liu, F.-Z.; Li, S.; Zhu, Y.; Liu, Y.; Yan, K.^* “Out-of-Equilibrium Confinement Catalysis Mediated by Compressive Force.” ChemRxiv 2025, DOI: 10.26434/chemrxiv-2025-k9l0h

17. Su, X.;† Ding, Z.;† Hong, Y.;† Ke, N.; Yan, K.;^* Li, C.;^* Jiang, Y.;^* Yu, P.^* “Fabrication of Spin-1/2 Heisenberg Antiferromagnetic Chains via Combined On-surface Synthesis and Reduction for Spinon Detection.” Nat. Syn. 2025, 4, 694-701. †Contributed equally. 

16. Zhu, X.;† Jiang, Y.;† Wang, Z.;† Huang, Y.; Luo, Z.; Yan, K.;^* Wang, S.;^* Yu, P.^* “Collective Magnetism of Spin Coronoid via On-Surface Synthesis.” J. Am. Chem. Soc. 2025, 147, 10045-10051. †Contributed equally. 

15. Zhu, X.;† Li, K.;† Liu, J.; Wang, Z.; Ding, Z.; Su, Y.; Yang, B.;^* Yan, K.;^* Li, G.;^* Yu, P.^* “Topological Structure Realized in Cove-Edged Graphene Nanoribbons via Incorporation of Periodic Pentagon Rings.” J. Am. Chem. Soc. 2024, 146, 7152-7158. †Contributed equally. 

14. Liu, Y.;† Liu, F.-Z.;† Li, S.; Wang, P.; Wang, J.; Chu, Z.; Zhang, Z.; Yan, K.^* “Mechanochemical Guest Release from Coordination Assemblies in the Solid State.”Chem 2024, 10, 1502-1515. †Contributed equally. 

13. Du, Q.;† Su, X.;† Liu, Y.;† Jiang, Y.;† Li, C.; Yan, K.; Ortiz, R.;^* Frederiksen, T.;^* Wang, S.;^* Yu, P.^* “Orbital-Symmetry Effects on Magnetic Exchange in Open-Shell Nanographenes.” Nat. Commun. 2023, 14, 4802. †Contributed equally. 

12. Gu, X.; Wang, T.; Yan, K.^* “Solvent-Free Mechanoradical-Mediated C-H Alkylation of N-Heteroarens.” Org. Lett. 2023, 25, 7287-7292. Highlighted in Org. Process Res. Dev.

11. Liu, Y.; Liu, F.-Z.; Li, S.; Liu, H.; Yan, K.^* “Biasing the Formation of Solution-Unstable Intermediates in Coordination Self-Assembly by Mechanochemistry.” Chem. Eur. J. 2023, 29, e202302563. 

10. Luo, H.; Liu, Y.; Liu, F.-Z.; Chu, Z.; Yan, K.^* “Biasing Divergent Polycyclic Aromatic Hydrocarbon Oxidation Pathway by Solvent-Free Mechanochemistry.” J. Am. Chem. Soc. 2023, 145, 15118-15127.

9. Chu, Z.; Luo, H.; Liu, Y.; Liu, F.-Z.; Yan, K.^* “Precise Synthesis of a Large Cyclic Alkane Through a Macrocycle-to-Macrocycle-to-Macrocycle Transformation.” Submitted 2023.

8. Chu, Z.; Liu, F.-Z. He, Z.; Yan, K.^* “A Late-Stage Approach Towards Higher Pillar[4]arenes from a Structurally Well-Defined Biomass-Derived Macrocyclic Template.”ChemRxiv 2023, DOI: 10.26434/chemrxiv-2023-4wmgw

7. He, Z.; Liu, L.; de Zwart, F. J.; Xue, X.; Ehlers, A. W.; Yan, K.; Demeshko, S.; van der Vlugt, J. I.; de Bruin, B.; Krogman, J. P. “Reactivity of a Unique Si(I)-Si(I)-based η²-bis(silylene) Iron Complex.” Inorg. Chem. 2022, 61, 11725-11733. 

6. Zhu, X.;† Liu, Y.;† Pu, W.;† Liu, F.-Z.; Sun, Z.;^* Yan, K.;^* Yu, P.^* “On-Surface Synthesis of C144 Hexagonal Coronoid with Zigzag Edges.” ACS Nano 2022, 16, 10600-10607. †Contributed equally. 

5. Cheng, S.;† Xue, Z.;† Li, C.;† Liu, Y.; Xiang, L.; Ke, Y.; Yan, K.; Wang, S.;^* Yu, P.^* “On-Surface Synthesis of Triangulene Trimers via Dehydration Reaction.” Nat. Commun. 2022, 13, 1705. †Contributed equally. 

4. Cheng, T.;† Ma, W.;† Luo, H.;† Ye, Y.; Yan, K.^* “Manipulating Reaction Energy Coordinate Landscape of Mechanochemical Diaza-Cope Rearrangement.” Molecules 2022, 27, 2570. †Contributed equally. (Invited contribution to the special issue: "Mechanochemical Synthesis of Organic Compounds")

3. Ma, W.;† Cheng, T.;† Liu, F.-Z.; Liu, Y.; Yan, K.^* “Allosteric Binding-Induced Intramolecular Mechanical-Strain Engineering.” Angew. Chem. Int. Ed. 2022, 61, e202202213. †Contributed equally. (News highlights: CBG 资讯)

2. Liu, Y.; Liu, F.-Z.; Yan, K.^* “Mechanochemical Access to a Short-Lived Molecular Rectangle Pd₂L₂: An Elusive Kinetic Species to Molecular Triangle Pd₃L₃ and Molecular Square Pd₄L₄.” Angew. Chem. Int. Ed. 2022, 61, e202116980. (News highlights: CBG 资讯)

1. Ma, W.; Liu, Y.; Yu, N.; Yan, K.^* “Solvent-Free Mechanochemical Diaza-Cope Rearrangement.” ACS Sustainable Chem. Eng. 2021, 9, 16092-16102.

Patent application: 甄家劲、马文献。一种通过硏磨实现diaza-Cope重排反应制备手性二胺的方法及其应用。申请号：202110736123.1

加入上科大之前 (Before ShanghaiTech):  

17. Zhou, B.; Utjapimuk, S.; Yan, K.; Dubey, R.; Kikuchi, T.; Mitsuhashi, T.; Fujita, M. “Rapid Analysis of Trace Amounts of Amino Acid Derivatives by a Formyl Group-Installed Crystalline Sponge.” Chem. Asian J. 2023, e202300969.

16. Dubey, R.;†Yan, K.;†Kikuchi, T; Sairenji, S.; Rossen, A.; Goh, S. S.; Feringa, B. L.; Fujita, M. “Absolute Configuration Determination from Low ee Compounds by the Crystalline Sponge Method. Unusual Conglomerate Formation in a Pre-Determined Crystalline Lattice.” Angew. Chem. Int. Ed. 2021, 60, 11809-11813. †Contributed equally.

15. Yan, K.;†Dubey, R.;†Arai, T.; Inokuma, Y.; Fujita, M. “Chiral Crystalline Sponges for the Absolute Structure Determination of Chiral Guests.” J. Am. Chem. Soc. 2017, 139, 11341-11344. †Contributed equally.

14. Yan, K.; Fujita, M. “A Speedy Marriage in Supramolecular Catalysis.” Science 2015, 350, 1165-1166.

13. Pindwal, A.; Yan, K.; Patniak, S.; Schmidt, B. M.; Ellern, A.; Slowing, I. S.; Bae, C.; Sadow, A. D. “Homoleptic Trivalent Tris(Alkyl) Rare Earth Compounds.” J. Am. Chem. Soc. 2017, 139, 16862-16874.

12. Lampland, N. L.; Pindwal, A.; Yan, K.; Ellern, A.; Sadow, A. D. “Rare Earth and Main Group Metal Poly(hydrosilyl) Compounds.” Organometallics 2017, 36, 4546-4557. 

11. Eedugurala, N.; Wang, Z.; Yan, K.; Boteju, K.; Chaudhary, U.; Kobayashi, T.; Ellern, A.; Slowing, I.; Pruski, M.; Sadow, A. “β-SiH-containing Tris(silazido) Rare Earth Complexes as Homogeneous and Grafted Single-Site Catalyst Precursors for Hydroamination.” Organometallics 2017, 36, 1142-1153. (Cover picture)

10. Yan, K.; Pindwal, A.; Ellern, A.; Sadow, A. D. “Direct Hydrosilylation by a Zirconacycle with β-Hydrogen.” Dalton Trans. 2014, 43, 8644-8653.

9. Yan, K.; Duchimaza Heredia, J. J.; Ellern, A.; Gordon, M. S.; Sadow, A. D. “Lewis Base Mediated β-Elimination and Lewis Acid Mediated Insertion Reactions of Disilazido Zirconium Compounds.” J. Am. Chem. Soc. 2013, 135, 15225-15237.

8. Yan, K.; Upton, B. M.; Zhu, J.; Ellern, A.; Sadow, A. D. “Nucleophilicity of Neutral and Cationic Magnesium Silyl Compounds.” Organometallics 2013, 32, 6834-6843.

7. Yan, K.; Sadow, A. D. “C-H Bond Activation of Ethylene by a Zirconacycle.” Chem. Commun. 2013, 49, 3212-3214.

6. Yan, K.; Schoendorff, G.; Ellern, A.; Upton, B. M.; Windus, T.; Sadow, A. D. “Intermolecular β-Hydrogen Abstraction in Ytterbium, Calcium and Potassium Tris(dimethylsilyl)methyl Compounds.” Organometallics 2013, 32, 1300-1316.

5. Mukherjee, D.; Lampland, N.; Yan, K.; Dunne, J. F.; Ellern, A.; Sadow, A. D. “Divergent Reaction Pathways of Tris(oxazolinyl)borato Zinc and Magnesium Silyl Compounds.” Chem. Commun. 2013, 49, 4334-4336.

4. Yan, K.; Ellern, A.; Sadow, A. D. “Nonclassical β-Hydrogen Elimination of Hydrosilazido Zirconium Compounds via Direct Hydrogen Transfer.” J. Am. Chem. Soc. 2012, 134, 9154-9156.

3. Yan, K.; Upton, B. M.; Ellern, A.; Sadow, A. D. “Lewis Acid-Mediated β-Hydride Abstraction Reactions of Divalent M(C(SiHMe2)3)2THF2(M = Ca, Yb).” J. Am. Chem. Soc. 2009, 131, 15110-15111.

2. Yan, K.; Pawlikowski, A. V.; Ebert, C.; Sadow, A. D. “A Tris(alkyl) Yttrium Compound Containing Six β-agostic Si-H Interactions.” Chem. Commun. 2009, 656-658.

1. Kanyi, C. W., Doetschman, D. C., Schulte, J. T., Yan, K. K., Wilson, R. E., Jones, B. R., Kowenje, C. O., Yang, S. W. “Linear, Primary Monohaloalkane Chemistry in NaX and NaY Faujasite Zeolites with and without Na-Treatment: Zeolites as Nucleophilic Reagents II.” Microporous and Mesoporous Materials 2006, 92, 292-299.