Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Zhang, X. F.
and
Kamino, T.
2008.
EMC 2008 14th European Microscopy Congress 1–5 September 2008, Aachen, Germany.
p.
513.
Trudeau, M.L.
Laul, D.
Veillette, R.
Serventi, A.M.
Mauger, A.
Julien, C.M.
and
Zaghib, K.
2011.
In situ high-resolution transmission electron microscopy synthesis observation of nanostructured carbon coated LiFePO4.
Journal of Power Sources,
Vol. 196,
Issue. 18,
p.
7383.
Zhang, Xiao Feng
2014.
In-situ Materials Characterization.
Vol. 193,
Issue. ,
p.
59.
Wu, Fan
and
Yao, Nan
2015.
Advances in windowed gas cells for in-situ TEM studies.
Nano Energy,
Vol. 13,
Issue. ,
p.
735.
Isakozawa, Shigeto
Nagaoki, Isao
Watabe, Akira
Nagakubo, Yasuhira
Saito, Nobuhiro
Matsumoto, Hiroaki
Zhang, Xiao Feng
Taniguchi, Yoshifumi
and
Baba, Norio
2016.
Design of a 300-kV gas environmental transmission electron microscope equipped with a cold field emission gun.
Microscopy,
Vol. 65,
Issue. 4,
p.
353.
Zhang, Xiao Feng
2016.
Enabling Lab-in-Gap Transmission Electron Microscopy at Atomic Resolution.
Microscopy Today,
Vol. 24,
Issue. 1,
p.
24.
Watanabe, Masahiro
and
Tryk, Donald A.
2017.
Electrochemical Science for a Sustainable Society.
p.
51.
Genty, Eric
Jacobs, Luc
Bocarmé, Thierry Visart de
and
Barroo, Cédric
2017.
Dynamic Processes on Gold-Based Catalysts Followed by Environmental Microscopies.
Catalysts,
Vol. 7,
Issue. 5,
p.
134.
Dai, Sheng
Gao, Wenpei
Zhang, Shuyi
Graham, George W.
and
Pan, Xiaoqing
2017.
Transmission electron microscopy with atomic resolution under atmospheric pressures.
MRS Communications,
Vol. 7,
Issue. 4,
p.
798.
Gulec, A.
Yu, X.X.
Taylor, M.
Yoon, A.
Zuo, J.M.
Perepezko, J.H.
and
Marks, L.D.
2018.
Early Stage of Oxidation of Mo3Si by In Situ Environmental Transmission Electron Microscopy.
Corrosion,
Vol. 74,
Issue. 3,
p.
288.
Jiang, Ying
Zhang, Zhengfei
Yuan, Wentao
Zhang, Xun
Wang, Yong
and
Zhang, Ze
2018.
Recent advances in gas-involved in situ studies via transmission electron microscopy.
Nano Research,
Vol. 11,
Issue. 1,
p.
42.
Xu, Mingquan
Li, Aowen
Gao, Meng
and
Zhou, Wu
2020.
Single-atom electron microscopy for energy-related nanomaterials.
Journal of Materials Chemistry A,
Vol. 8,
Issue. 32,
p.
16142.
Ye, Fan
Xu, Mingjie
Dai, Sheng
Tieu, Peter
Ren, Xiaobing
and
Pan, Xiaoqing
2020.
In Situ TEM Studies of Catalysts Using Windowed Gas Cells.
Catalysts,
Vol. 10,
Issue. 7,
p.
779.
Rabha, Shahadev
and
Saikia, Binoy K.
2020.
Handbook of Nanomaterials in Analytical Chemistry.
p.
449.
Ott, Emily-Jean E.
Kucinski, Theresa M.
Dawson, Joseph Nelson
and
Freedman, Miriam Arak
2021.
Use of Transmission Electron Microscopy for Analysis of Aerosol Particles and Strategies for Imaging Fragile Particles.
Analytical Chemistry,
Vol. 93,
Issue. 33,
p.
11347.
Urban, Knut W.
Barthel, Juri
Houben, Lothar
Jia, Chun-Lin
Jin, Lei
Lentzen, Markus
Mi, Shao-Bo
Thust, Andreas
and
Tillmann, Karsten
2023.
Progress in atomic-resolution aberration corrected conventional transmission electron microscopy (CTEM).
Progress in Materials Science,
Vol. 133,
Issue. ,
p.
101037.
Tang, Longshu
Higuchi, Tetsuo
Arai, Shigeo
Tanaka, Hiromochi
and
Muto, Shunsuke
2024.
Development of an integrated high-voltage electron microscope–gas chromatograph–quadrupole mass spectrometer system for the operando analysis of catalytic gas reactions.
Microscopy,
Vol. 73,
Issue. 4,
p.
358.