I'm excited to share this work from my thesis which has recently been published in @angew_chem! Many thanks to the awesome scientists who aided in this work, especially @KMirica for guiding this ever-evolving foray into e-textiles.
Link: https://t.co/hmnPZB95vX
Are you a fan of 2D MOFs? Check out this account recently published in Accounts of Materials Research! Many thanks to both @HyukJun_Noh and
@KMirica for helping to craft this love letter to metallophthalocyanine-based #MOFs
Link: https://t.co/2mWftAon0P
Conductive Covalent Organic Frameworks as Chemiresistive Sensor Arrays for the Detection and Differentiation of Gasotransmitters | Journal of the American Chemical Society @KMirica@Dartmouth@CoryMSimon@OregonState https://t.co/FWdaZLzyi5
Check out a new paper from my group published in @angew_chem today:
"Multifunctional Electronic Textiles for the Simultaneous Detectionand Uptake of Hydrogen Sulfide"
https://t.co/SBKqwVCRv6
Tuning the Structure–Property Relationships of Metallophthalocyanine-Based Two-Dimensional Conductive Metal–Organic Frameworks with Different Metal Linkages | Journal of the American Chemical Society @chhendon@KMirica@uoregon https://t.co/E5f7V9Azgz
Excited to share our latest work, led by me and @EvanAtLab, now published in @J_A_C_S! 🎉
We discovered that interlayer stacking patterns play a key role in charge transport!
Many thanks to @KMirica, @chhendon , and all collaborators for their support!
I'm thrilled to share this work which @HyukJun_Noh and I led @J_A_C_S.
Many thanks to @KMirica and @chhendon.
Now it's off to find more structure-property relationships to elucidate!
I am delighted to share a new publication from my group entitled "Tuning the Structure–Property Relationships of Metallophthalocyanine-Based Two-Dimensional Conductive Metal–Organic Frameworks with Different Metal Linkages" published @J_A_C_S today:
https://t.co/Jb5OEVsjk6
This work was led by @HyukJun_Noh and @EvanAtLab, in collaboration with @chhendon.
Check out our latest review led by @realemmaambrogi entitled "Electronic Chemical Sensors Based on Conductive Framework Materials" published online today in Analytical Chemistry:
https://t.co/AuuqaMSpnC
I am delighted to announce a new publication by my group led by @realemmaambrogi where we demonstrate the promising applicability of conductive MOFs for promoting the detection of nitric oxide in aqueous solutions:
https://t.co/tlxxMiGDg9
Starting the New Year on a high note with a new paper @J_A_C_S led by my talented PhD student @damacet entitled
"Controlling the Spatiotemporal Self-Organization of Stimuli-Responsive Nanocrystals under Out-of-Equilibrium Conditions": https://t.co/9mi8wCHKnC
Reversible and Ultrasensitive Detection of Nitric Oxide Using a Conductive Two-Dimensional #MetalOrganicFramework (Katherine A. Mirica and co-workers) @HyukJun_Noh@KMirica • https://t.co/Pshpj9PoqF
Check out our new collaborative work with @chhendon led by @HyukJun_Noh on using conductive MOFs for gas sensing! Just accepted @angew_chem:
https://t.co/jU74bqbmzs
Congratulations to the team!
I had a great time at Dartmouth Chemistry's celebration of National Chemistry week! I got to do two of my favorite things, demos of e-textiles and show off my hoard of homemade HHTP!
Interested in pursuing a PhD in Chemistry? Learn more about the Chemistry PhD program at Dartmouth through our virtual information sessions:
Dartmouth Graduate School Virtual Fair: https://t.co/g5BpRx7Gv5
Department of Chemistry Virtual Information Sessions: