Do Hong Kim scite author profile

Ammonia (NH) is an irritant gas with a unique pungent odor; sub-parts per million-level breath ammonia is a medical biomarker for kidney disorders and Helicobacter pylori bacteria-induced stomach infections. The humidity varies in both ambient environment and exhaled breath, and thus humidity dependence of gas-sensing characteristics is a great obstacle for real-time applications. Herein, flexible, humidity-independent, and room-temperature ammonia sensors are fabricated by the thermal evaporation of CuBr on a polyimide substrate and subsequent coating of a nanoscale moisture-blocking CeO overlayer by electron-beam evaporation. CuBr sensors coated with a 100 nm-thick CeO overlayer exhibits an ultrahigh response (resistance ratio) of 68 toward 5 ppm ammonia with excellent gas selectivity, rapid response, reversibility, and humidity-independent sensing characteristics at room temperature. In addition, the sensing performance remains stable after repetitive bending and long-term operation. Moreover, the sensors exhibit significant response to the simulated exhaled breath of patients with H. pylori infection; the simulated breath contains 50 ppb NH. The sensors thus show promising potential in detecting sub-parts per million-level NH, regardless of humidity fluctuations, which can open up new applications in wearable devices for in situ medical diagnosis and indoor/outdoor environment monitoring.

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Psychometric properties of a self-efficacy scale for English language learners in China

Wang

Kim

Bai

et al. 2014

System

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Ethics in classroom assessment practices: Issues and attitudes

Green

Johnson

Kim

et al. 2007

Teaching and Teacher Education

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Highly sensitive and selective H2 and NO2 gas sensors based on surface-decorated WO3 nanoigloos

Shim

Zhang

Kim

et al. 2014

Sensors and Actuators B: Chemical

100

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Self-activated ultrahigh chemosensitivity of oxide thin film nanostructures for transparent sensors

Moon

Shim

Kim

et al. 2012

Sci Rep

113

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One of the top design priorities for semiconductor chemical sensors is developing simple, low-cost, sensitive and reliable sensors to be built in handheld devices. However, the need to implement heating elements in sensor devices, and the resulting high power consumption, remains a major obstacle for the realization of miniaturized and integrated chemoresistive thin film sensors based on metal oxides. Here we demonstrate structurally simple but extremely efficient all oxide chemoresistive sensors with ~90% transmittance at visible wavelengths. Highly effective self-activation in anisotropically self-assembled nanocolumnar tungsten oxide thin films on glass substrate with indium-tin oxide electrodes enables ultrahigh response to nitrogen dioxide and volatile organic compounds with detection limits down to parts per trillion levels and power consumption less than 0.2 microwatts. Beyond the sensing performance, high transparency at visible wavelengths creates opportunities for their use in transparent electronic circuitry and optoelectronic devices with avenues for further functional convergence.

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NH2-MIL-125(Ti)/TiO2 nanorod heterojunction photoanodes for efficient photoelectrochemical water splitting

Yoon

Kim

et al. 2019

Applied Catalysis B: Environmental

142

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Do Hong Kim

English language learners' self-efficacy profiles and relationship with self-regulated learning strategies

Conformally coated BiVO4 nanodots on porosity-controlled WO3 nanorods as highly efficient type II heterojunction photoanodes for water oxidation

Flexible Room-Temperature NH₃ Sensor for Ultrasensitive, Selective, and Humidity-Independent Gas Detection

Psychometric properties of a self-efficacy scale for English language learners in China

Ethics in classroom assessment practices: Issues and attitudes

Highly sensitive and selective H2 and NO2 gas sensors based on surface-decorated WO3 nanoigloos

Self-activated ultrahigh chemosensitivity of oxide thin film nanostructures for transparent sensors

NH2-MIL-125(Ti)/TiO2 nanorod heterojunction photoanodes for efficient photoelectrochemical water splitting

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Do Hong Kim

English language learners' self-efficacy profiles and relationship with self-regulated learning strategies

Conformally coated BiVO4 nanodots on porosity-controlled WO3 nanorods as highly efficient type II heterojunction photoanodes for water oxidation

Flexible Room-Temperature NH3 Sensor for Ultrasensitive, Selective, and Humidity-Independent Gas Detection

Psychometric properties of a self-efficacy scale for English language learners in China

Ethics in classroom assessment practices: Issues and attitudes

Highly sensitive and selective H2 and NO2 gas sensors based on surface-decorated WO3 nanoigloos

Self-activated ultrahigh chemosensitivity of oxide thin film nanostructures for transparent sensors

NH2-MIL-125(Ti)/TiO2 nanorod heterojunction photoanodes for efficient photoelectrochemical water splitting

Contact Info

Product

Resources

About

Flexible Room-Temperature NH₃ Sensor for Ultrasensitive, Selective, and Humidity-Independent Gas Detection