Ultrabroadband and Highly Sensitive Short-Wave Infrared Molecular Fingerprinting via Acoustic MXene Plasmons, Changhoon Park, Jisung Kwon, Nu-Ri Park, Hyerim Kim, Hyeju Kim, Yury Gogotsi, Chong Min Koo*, Myung-Ki Kim*. Advanced Science, 2026

Quantitative Defect–Property Correlations in Ti3C2Tx MXenes via Precursor‑Controlled Defect EngineeringsStrong metal-support interaction at Ti3+-oxygen vacancy-Pt-interfaces in  MXene-derived TiO2 for room-temperature formaldehyde oxidations,Ammara Ayuba,b,1, Ari Chaec,d,1, Waleed Ahmada,1, Sk Mujaffar Hossaine, Ji Eun Seoc,h,  Chong Min Koo,f, Heehyeon Lee,a,Jaeeun Yooni,c,d, Seung-Cheol Leee,g, Sanglim Han,j,   Taegon Ohc,d,*, Dong Wook Kwon,c,**, Youngtak Oh,b,c,***.      Chemical Engineering Journal, 536 (2026) 175705
 

Quantitative Defect–Property Correlations in Ti3C2Tx MXenes via Precursor‑Controlled Defect Engineering,Tufail Hassan1, Doyeon Lee2, Shabbir Madad Naqvi1,Myungjae Kim3, Jung-Min Oh4, Sang Woon Park4, Aamir Iqbal5, Soo Yeong Cho1, Zhiwang Hao1, Noushad Hussain1, Zubair Khalid1, Shakir Zaman1, Xiangmeng Kong1, Ki-Min Roh6, Hanjung Kwon2 *, Chong Min Koo1,7. Nano-Micro Lett. (2026) 18:264.

Scalable Production of Tailor-Designed MXene–Hydrogel Core–Shell Fibers via Dual Stress-Guided Alignment during Thermal Drawing. YoungbinLee, YeoHoonYoon, GangSan Lee, KumSeok Nam,Tufail Hassan, Dong-Yeong Kim, Kyunghyun Jo, Ji-won Hong,ChongMin Koo, Sang Ouk Kim*, and Seongjun Park*. ACS Nano.