HUANG Y, DING Q, CHEN Z, CHEN J, LI Y, CHEN L, YAO S, LAN Y und XU G, 2026. Brain-Computer Interface Training Enhances Attention Function via Modulating Frontoparietal Connectivity: Evidence From Functional Near-Infrared Spectroscopy. Neural plasticity. 5 Januar 2026. Vol. 2026, , p. 8133428-8133428. DOI 10.1155/np/8133428.
Elsevier - Harvard (with titles)Huang Y, Ding Q, Chen Z, Chen J, Li Y, Chen L, Yao S, Lan Y, Xu G, 2026. Brain-Computer Interface Training Enhances Attention Function via Modulating Frontoparietal Connectivity: Evidence From Functional Near-Infrared Spectroscopy. Neural plasticity 2026, 8133428-8133428. https://doi.org/10.1155/np/8133428
American Psychological Association 7th editionHuang Y, Ding Q, Chen Z, Chen J, Li Y, Chen L, Yao S, Lan Y, & Xu G. (2026). Brain-Computer Interface Training Enhances Attention Function via Modulating Frontoparietal Connectivity: Evidence From Functional Near-Infrared Spectroscopy. Neural Plasticity, 2026, 8133428-8133428. https://doi.org/10.1155/np/8133428
Springer - Basic (author-date)Huang Y, Ding Q, Chen Z, Chen J, Li Y, Chen L, Yao S, Lan Y, Xu G (2026) Brain-Computer Interface Training Enhances Attention Function via Modulating Frontoparietal Connectivity: Evidence From Functional Near-Infrared Spectroscopy.. Neural plasticity 2026:8133428-8133428. https://doi.org/10.1155/np/8133428
Juristische Zitierweise (Stüber) (Deutsch)Huang Y/ Ding Q/ Chen Z/ Chen J/ Li Y/ Chen L/ Yao S/ Lan Y/ Xu G, Brain-Computer Interface Training Enhances Attention Function via Modulating Frontoparietal Connectivity: Evidence From Functional Near-Infrared Spectroscopy., Neural plasticity 2026, 8133428-8133428.