1357366-94-9Relevant academic research and scientific papers
Effect of the Metal within Regioisomeric Paddle-Wheel-Type Metal–Organic Frameworks
Ha, Hyeonbin,Kim, Youngik,Kim, Dopil,Lee, Jihyun,Song, Yoodae,Kim, Suyeon,Park, Myung Hwan,Kim, Youngjo,Kim, Hyungjun,Yoon, Minyoung,Kim, Min
, p. 14414 - 14420 (2019)
The effect of metal on the degree of flexibility upon evacuation of metal–organic frameworks (MOFs) has been revealed with positional control of the organic functionalities. Although Co-, Cu-, and Zn-based DMOFs (DMOF = DABCO MOF, DABCO = 1,4-diazabicyclo
Aromatic Substituent Effects on the Flexibility of Metal-Organic Frameworks
Hahm, Hyungwoo,Yoo, Kwangho,Ha, Hyeonbin,Kim, Min
, p. 7576 - 7581 (2016/08/06)
The flexibility (or breathing behavior) of zinc-based metal-organic frameworks (MOFs) has been manipulated by regioisomeric and positional control of organic functionalities. Ten new regioisomeric BDC (ortho- or para-disubstituted benzene-1,4-dicarboxylic
Metal-organic framework regioisomers based on bifunctional ligands
Kim, Min,Boissonnault, Jake A.,Dau, Phuong V.,Cohen, Seth M.
supporting information; experimental part, p. 12193 - 12196 (2012/01/30)
Regioisomeric MOFs: A series of bifunctional metal-organic framework (MOF) regioisomers has been produced from amino-halo benzene dicarboxylate (NH 2X-BDC) ligands. ZrIV- and ZnII-based MOFs were synthesized and for the fl
