김동하 교수가 HY ERICA Who Are You에 소개되었습니다.

Prof. Dong-Ha Kim is appointed as the International Executive Director of the Korean Ceramic Society.

Our work entitiled "Robust Chemiresistive Behavior in Conductive Polymer/MOF Composites" (published in Advanced Materials, 2024) was introduced in MIT news.

Dong-Ha Kim officially starts his carrier as an Assistant Professor at Hanyang University ERICA

Our work entitled "Flash-Thermal Shock Synthesis of High-Entropy Alloys Toward High-Performance Water Splitting" (published in Advanced Matierlas, 2023, Inside-Front Cover-Featured) and "Flash-Thermal Shock Synthesis of Single-Atoms in Ambient Air" (published in ACS Nano, 2023, Supplementary Cover-Featured) were introduced in KAIST news [link] and other news media [link].

Our work entitled "Porous Nanofiber Membrane: Rational Platform for Highly Sensitive Thermochromic Sensor" (published in Advanced Functional Materials, 2022, Front Cover-Featured) was introduced in KAIST news [link] and other news media [link].

Our work entitled "Flash-Thermochemical Engineering of Phase and Surface Activity on Metal Oxides" (published in Chem, 2022, Front Cover-Featured) was introduced in KAIST news [link] and other news media [link].

Dong-Ha Kim won the 2022 KAIST DMSE Best Academic Paper Award (The Excellence Doctorate Thesis Award).

Our work entitled "Surface Activity-Tuned Metal Oxide Chemiresistor: Toward Direct and Quantitative Halitosis Diagnosis" (published in ACS Nano, 2021, Supplementary Cover-featured) was broadcasted on Arirang TV [link] and TJB TV [link]. This research was also introduced in ACS PressPac as "Thumb-sized device quickly sniffs out bad breath" on July 21, 2021 [link], and introduced in worldwide news media [link].

Our work entitled "Low-Thermal-Budget Doping of 2D Materials in Ambient Air Exemplified by Synthesis of Boron-Doped Reduced Graphene Oxide" (published in Advanced Science, Inside Back Cover-Featured) was highlighted in KAIST breakthroughs in Fall 2020.

Dong-Ha Kim's acetone sensors were introduced to discriminate the breath of healthy subjects and the breath of a bus driver who is suffering from high concentration acetone gas in his exhaled breath. High concentration acetone is proven to be the cause of fat-burning by fasting. [link]

The paper entitled "Bioinspired Cocatalysts Decorated WO3 Nanotube Toward Unparalleled Hydrogen Sulfide Chemiresistor" in ACS Sensors was featured in Introducing our authors section. [link]