Energy level realignment in weakly interacting donor–acceptor binary molecular networks
Understanding the effect of intermolecular and molecule–substrate interactions on
molecular electronic states is key to revealing the energy level alignment mechanism at …
molecular electronic states is key to revealing the energy level alignment mechanism at …
Energy level realignment in weakly interacting donor-acceptor binary molecular networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - 2014 - scholarbank.nus.edu.sg
Understanding the effect of intermolecular and molecule-substrate interactions on molecular
electronic states is key to revealing the energy level alignment mechanism at organic …
electronic states is key to revealing the energy level alignment mechanism at organic …
Energy level realignment in weakly interacting donor-acceptor binary molecular networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno… - ACS …, 2014 - pubmed.ncbi.nlm.nih.gov
Understanding the effect of intermolecular and molecule-substrate interactions on molecular
electronic states is key to revealing the energy level alignment mechanism at organic …
electronic states is key to revealing the energy level alignment mechanism at organic …
Energy Level Realignment in Weakly Interacting Donor-Acceptor Binary Molecular Networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - phyweb.physics.nus.edu.sg
CuPc monolayer and their 1: 1 mixture on HOPG substrate.(a) UPS spectra at the lowkinetic
energy part with a-5 V sample bias (ie, secondary electron cutoff),(b) valence band spectra …
energy part with a-5 V sample bias (ie, secondary electron cutoff),(b) valence band spectra …
[DOC][DOC] Energy Level Realignment in Weakly Interacting Donor-Acceptor Binary Molecular Networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - researchgate.net
Understanding the effect of intermolecular and molecule-substrate interactions on molecular
electronic states is key to revealing the energy level alignment mechanism at organic …
electronic states is key to revealing the energy level alignment mechanism at organic …
[引用][C] Energy Level Realignment in Weakly Interacting Donor–Acceptor Binary Molecular Networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - ACS Nano, 2014 - cir.nii.ac.jp
Energy Level Realignment in Weakly Interacting Donor–Acceptor Binary Molecular Networks |
CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ …
CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ …
Energy level realignment in weakly interacting donor-acceptor binary molecular networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, AT Wee… - ACS Nano, 2014 - hero.epa.gov
Understanding the effect of intermolecular and molecule-substrate interactions on molecular
electronic states is key to revealing the energy level alignment mechanism at organic …
electronic states is key to revealing the energy level alignment mechanism at organic …
[PDF][PDF] Energy Level Realignment in Weakly Interacting Donor-Acceptor Binary Molecular Networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - pstorage-acs-6854636.s3 …
The vacuum levels (VL) of all well-ordered monolayer (ie, CuPc/HOPG, F16CuPc/HOPG,
Binary/HOPG) were measured by the linear extrapolation of the low-kinetic energy onset …
Binary/HOPG) were measured by the linear extrapolation of the low-kinetic energy onset …
Energy level realignment in weakly interacting donor-acceptor binary molecular networks.
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, AT Wee… - ACS Nano, 2014 - europepmc.org
Understanding the effect of intermolecular and molecule-substrate interactions on molecular
electronic states is key to revealing the energy level alignment mechanism at organic …
electronic states is key to revealing the energy level alignment mechanism at organic …
Energy Level Realignment in Weakly Interacting Donor-Acceptor Binary Molecular Networks
JQ Zhong, X Qin, JL Zhang, S Kera, N Ueno, ATS Wee… - phyweb.physics.nus.edu.sg
CuPc monolayer and their 1: 1 mixture on HOPG substrate.(a) UPS spectra at the lowkinetic
energy part with a-5 V sample bias (ie, secondary electron cutoff),(b) valence band spectra …
energy part with a-5 V sample bias (ie, secondary electron cutoff),(b) valence band spectra …