논문성과
재난안전 R&D를 통해 발간된 논문 성과 입니다. 논문명을 클릭하면 상세 정보를 확인할 수 있습니다.
논문성과 : 번호, 성과발생년도, 성과발생부처, 성과사업명, 논문명, 학술지명, 재난안전 유형 순으로 나열되고 있습니다.
| 번호 |
성과발생년도 |
성과발생부처 |
성과사업명 |
논문명 |
학술지명 |
재난안전 유형 |
| 6655 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
An impedimetric determination of alkaline phosphatase activity based on the oxidation reaction mediated by Cu2+ bound to poly-thymine DNA
|
RSC ADVANCES |
1. 감염병
|
| 6654 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Abasic Site-Assisted Inhibition of Nicking Endonuclease Activity for the Sensitive Determination of Uracil DNA Glycosylase
|
BIOTECHNOLOGY JOURNAL |
1. 감염병
|
| 6653 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Label-Free Multiplex DNA Detection Utilizing Projected Capacitive Touchscreen
|
BIOTECHNOLOGY JOURNAL |
1. 감염병
|
| 6652 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Enzyme-free and label-free miRNA detection based on target-triggered catalytic hairpin assembly and fluorescence enhancement of DNA-silver nanoclusters
|
SENSORS AND ACTUATORS B-CHEMICAL |
1. 감염병
|
| 6651 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Label-free fluorescent detection of alkaline phosphatase with vegetable waste-derived green carbon probes
|
SENSORS AND ACTUATORS B-CHEMICAL |
1. 감염병
|
| 6650 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
A simple, sensitive, and label-free assay for alkaline phosphatase activity based on target-promoted exponential strand displacement amplification
|
SENSORS AND ACTUATORS B-CHEMICAL |
1. 감염병
|
| 6649 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
A signal-on, colorimetric determination of deoxyribonuclease I activity utilizing the photoinduced synthesis of gold nanoparticles
|
NANOSCALE |
1. 감염병
|
| 6648 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Universal, colorimetric microRNA detection strategy based on target-catalyzed toehold-mediated strand displacement reaction
|
NANOTECHNOLOGY |
1. 감염병
|
| 6647 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Ultrasensitive DNA detection based on target-triggered rolling circle amplification and fluorescent poly(thymine)-templated copper nanoparticles
|
RSC ADVANCES |
1. 감염병
|
| 6646 |
2018 |
과기정통부 |
글로벌프론티어지원(R&D) |
Determination of RNase H activity via real-time monitoring of target-triggered rolling circle amplification
|
MICROCHIMICA ACTA |
1. 감염병
|
