Bibliography Fusion: In Situ Heating/Electrical

Journal Articles

Research conducted using Fusion and legacy Aduro Systems

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Title	URL	Citation
Controlling hydrocarbon transport and electron beam induced deposition on single layer graphene: Toward atomic scale synthesis in the scanning transmission electron microscope	https://onlinelibrary.wiley.com/doi/abs/10.1002/nano.202100188	Dyck, Ondrej; Lupini, Andrew R.; Rack, Philip D.; Fowlkes, Jason; Jesse, Stephen , Controlling hydrocarbon transport and electron beam induced deposition on single layer graphene: Toward atomic scale synthesis in the scanning transmission electron microscope, 2022, Nano Select, 10.1002/nano.202100188
In situ atomic-scale observation of the conversion behavior in a Cu-Zn alloy for twinnability enhancement	https://www.sciencedirect.com/science/article/pii/S0169433221026490	Wu, Yu-Lien; Huang, Chih-Yang; Lo, Hung-Yang; Shen, Fang-Chun; Ho, An-Yuan; Tseng, Yi-Tang; Yasuhara, Akira; Wu, Wen-Wei , In situ atomic-scale observation of the conversion behavior in a Cu-Zn alloy for twinnability enhancement, 2022, Applied Surface Science, 10.1016/j.apsusc.2021.151602
In-situ Transmission Electron Microscope Investigation of Atomic-scale Titanium Silicide Monolayer Superlattice	http://www.sciencedirect.com/science/article/pii/S1359646220306874	Lu, Hsin-Mei; Huang, Chih-Yang; Huang, Guan-Ming; Lu, Kuo-Chang; Wu, Wen-Wei , In-situ Transmission Electron Microscope Investigation of Atomic-scale Titanium Silicide Monolayer Superlattice, 2021, Scripta Materialia, 10.1016/j.scriptamat.2020.10.029
A room temperature polar ferromagnetic metal	https://arxiv.org/abs/2106.00833	Zhang, Hongrui; Shao, Yu-Tsun; Chen, Rui; Chen, Xiang; Susarla, Sandhya; Reichanadter, Jonathan T; Caretta, Lucas; Huang, Xiaoxi; Settineri, Nicholas S; Chen, Zhen; Zhou, Jingcheng; Bourret-Courchesne, Edith; Ercius, Peter; Yao, Jie; Neaton, Jeffrey B; Muller, David A; Birgeneau, Robert J; Ramesh, Ramamoorthy , A room temperature polar ferromagnetic metal, 2021, Condensed Matter Material Science, -
Electron beam induced current microscopy of silicon p–n junctions in a scanning transmission electron microscope	https://aip.scitation.org/doi/10.1063/5.0040243	Conlan, Aidan P.; Moldovan, Grigore; Bruas, Lucas; Monroy, Eva; Cooper, David , Electron beam induced current microscopy of silicon p–n junctions in a scanning transmission electron microscope, 2021, Journal of Applied Physics, 10.1063/5.0040243
MEMS-based in situ electron-microscopy investigation of rapid solidification and heat treatment on eutectic Al-Cu	http://arxiv.org/abs/2101.02935	Dumitraschkewitz, Phillip; Tunes, Matheus A.; Quick, Cameron R.; Coradini, Diego Santa Rosa; Kremmer, Thomas M.; Ramasamy, Parthiban; Uggowitzer, Peter J.; Pogatscher, Stefan , MEMS-based in situ electron-microscopy investigation of rapid solidification and heat treatment on eutectic Al-Cu, 2021, arXiv:2101.02935 [cond-mat], -
In Situ TEM Study of Rh Particle Sintering for Three-Way Catalysts in High Temperatures	https://www.mdpi.com/2073-4344/11/1/19	Nakayama, Hiroki; Nagata, Makoto; Abe, Hideki; Shimizu, Yukihiro , In Situ TEM Study of Rh Particle Sintering for Three-Way Catalysts in High Temperatures, 2021, Catalysts, 10.3390/catal11010019
Atomic-scale silicidation of low resistivity Ni-Si system through in-situ TEM investigation	http://www.sciencedirect.com/science/article/pii/S0169433220328865	Hou, An-Yuan; Ting, Yi-Hsin; Tai, Kuo-Lun; Huang, Chih-Yang; Lu, Kuo-Chang; Wu, Wen-Wei , Atomic-scale silicidation of low resistivity Ni-Si system through in-situ TEM investigation, 2021, Applied Surface Science, 10.1016/j.apsusc.2020.148129
Improved mechanical properties of V-microalloyed dual phase steel by enhancing martensite deformability	http://www.sciencedirect.com/science/article/pii/S1005030220308860	Zhang, Jingbin; Sun, Yinrui; Ji, Zhijie; Luo, Haiwen; Liu, Feng , Improved mechanical properties of V-microalloyed dual phase steel by enhancing martensite deformability, 2021, Journal of Materials Science & Technology, 10.1016/j.jmst.2020.10.022
Imaging real-time amorphization of hybrid perovskite solar cells under electrical biasing	https://doi.org/10.1021/acsenergylett.1c01707	Kim, Min-cheol; Ahn, Namyoung; Cheng, Diyi; Xu, Mingjie; Pan, Xiaoqing; Jun, Suk; Luo, Yanqi; Fenning, David P; Tan, Darren H S; Zhang, Minghao; Ham, So-Yeon; Jeong, Kiwan; Choi, Mansoo; Meng, Ying Shirley , Imaging real-time amorphization of hybrid perovskite solar cells under electrical biasing, 2021, ACS Energy Letters, https://doi.org/10.1021/acsenergylett.1c01707
Nanoelectromechanical modulation of a strongly-coupled plasmonic dimer	https://www.nature.com/articles/s41467-020-20273-2	Song, Jung-Hwan; Raza, Søren; van de Groep, Jorik; Kang, Ju-Hyung; Li, Qitong; Kik, Pieter G.; Brongersma, Mark L. , Nanoelectromechanical modulation of a strongly-coupled plasmonic dimer, 2021, Nature Communications, 10.1038/s41467-020-20273-2
Step-By-Step Atomic Insights into Structural Reordering from 2D to 3D MoS2	https://onlinelibrary.wiley.com/doi/abs/10.1002/adfm.202008395	Inani, Heena; Shin, Dong Hoon; Madsen, Jacob; Jeong, HyunJeong; Kwon, Min Hee; McEvoy, Niall; Susi, Toma; Mangler, Clemens; Lee, Sang Wook; Mustonen, Kimmo; Kotakoski, Jani , Step-By-Step Atomic Insights into Structural Reordering from 2D to 3D MoS2, 2021, Advanced Functional Materials, https://doi.org/10.1002/adfm.202008395
In-Situ Transmission Electron Microscopy Observation of Germanium Growth on Freestanding Graphene: Unfolding Mechanism of 3D Crystal Growth During Van der Waals Epitaxy	https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.202101890	Diallo, Thierno Mamoudou; Aziziyan, Mohammad Reza; Arvinte, Roxana; Harmand, Jean-Christophe; Patriarche, Gilles; Renard, Charles; Fafard, Simon; Arès, Richard; Boucherif, Abderraouf , In-Situ Transmission Electron Microscopy Observation of Germanium Growth on Freestanding Graphene: Unfolding Mechanism of 3D Crystal Growth During Van der Waals Epitaxy, 2021, Small, 10.1002/smll.202101890
Controlling hydrocarbon transport and electron beam induced deposition on single layer graphene: Toward atomic scale synthesis in the scanning transmission electron microscope	https://onlinelibrary.wiley.com/doi/abs/10.1002/nano.202100188	Dyck, Ondrej; Lupini, Andrew R.; Rack, Philip D.; Fowlkes, Jason; Jesse, Stephen , Controlling hydrocarbon transport and electron beam induced deposition on single layer graphene: Toward atomic scale synthesis in the scanning transmission electron microscope, 2021, Nano Select, 10.1002/nano.202100188
Focused Ion Beam Sample Preparation for In Situ Thermal and Electrical Transmission Electron Microscopy	https://www.cambridge.org/core/journals/microscopy-and-microanalysis/article/focused-ion-beam-sample-preparation-for-in-situ-thermal-and-electrical-transmission-electron-microscopy/D7CA1C1F0B3DEC6C2A9854AD8CBD58CC	Radić, Dražen; Peterlechner, Martin; Bracht, Hartmut , Focused Ion Beam Sample Preparation for In Situ Thermal and Electrical Transmission Electron Microscopy, 2021, Microscopy and Microanalysis, 10.1017/S1431927621012022
Atomistic Imaging of Competition between Surface Diffusion and Phase Transition during the Intermetallic Formation of Faceted Particles	https://doi.org/10.1021/acsnano.0c10775	Li, Fan; Zong, Yuan; Ma, Yanling; Wang, Mingxu; Shang, Wen; Tao, Peng; Song, Chengyi; Deng, Tao; Zhu, Hong; Wu, Jianbo , Atomistic Imaging of Competition between Surface Diffusion and Phase Transition during the Intermetallic Formation of Faceted Particles, 2021, ACS Nano, 10.1021/acsnano.0c10775
On the formation of α-alumina single crystal platelets through eggshell membrane bio-templating	https://www.sciencedirect.com/science/article/pii/S1359646220308381	Sabu, Ummen; Kumar, C N Shyam; Logesh, G; Rashad, Mohammed; Melinte, Georgian; Joy, Anand; Kübel, Christian; Balasubramanian, M , On the formation of α-alumina single crystal platelets through eggshell membrane bio-templating, 2021, Scripta Materialia, 10.1016/j.scriptamat.2020.113716
Influence of Sr deficiency on structural and electrical properties of SrTiO3 thin films grown by metal–organic vapor phase epitaxy	https://www.nature.com/articles/s41598-021-87007-2	Baki, Aykut; Stöver, Julian; Schulz, Tobias; Markurt, Toni; Amari, Houari; Richter, Carsten; Martin, Jens; Irmscher, Klaus; Albrecht, Martin; Schwarzkopf, Jutta , Influence of Sr deficiency on structural and electrical properties of SrTiO3 thin films grown by metal–organic vapor phase epitaxy, 2021, Scientific Reports, 10.1038/s41598-021-87007-2
Insights into the nucleation, grain growth and phase transformation behaviours of sputtered metastable β-W films	https://www.sciencedirect.com/science/article/pii/S1005030221002838	Chen, Shuqun; Wang, Jinshu; Wu, Ronghai; Wang, Zheng; Li, Yangzhong; Lu, Yiwen; Zhou, Wenyuan; Hu, Peng; Li, Hongyi , Insights into the nucleation, grain growth and phase transformation behaviours of sputtered metastable β-W films, 2021, Journal of Materials Science & Technology, 10.1016/j.jmst.2021.02.027
Two-dimensional ferroelasticity in van der Waals β’-In2Se3	https://www.nature.com/articles/s41467-021-23882-7	Xu, Chao; Mao, Jianfeng; Guo, Xuyun; Yan, Shanru; Chen, Yancong; Lo, Tsz Wing; Chen, Changsheng; Lei, Dangyuan; Luo, Xin; Hao, Jianhua; Zheng, Changxi; Zhu, Ye , Two-dimensional ferroelasticity in van der Waals β’-In2Se3, 2021, Nature Communications, 10.1038/s41467-021-23882-7
Disordered interfaces enable high temperature thermal stability and strength in a nanocrystalline aluminum alloy	https://www.sciencedirect.com/science/article/pii/S1359645421003530	Balbus, Glenn H.; Kappacher, Johann; Sprouster, David J.; Wang, Fulin; Shin, Jungho; Eggeler, Yolita M.; Rupert, Timothy J.; Trelewicz, Jason R.; Kiener, Daniel; Maier-Kiener, Verena; Gianola, Daniel S. , Disordered interfaces enable high temperature thermal stability and strength in a nanocrystalline aluminum alloy, 2021, Acta Materialia, 10.1016/j.actamat.2021.116973
Control of oxidation behavior in high vacuum transmission electron microscopy	https://linkinghub.elsevier.com/retrieve/pii/S104458032032341X	Kwon, Yena; An, Byeong-Seon; Moon, Ji-Yun; Lee, Jae-Hyun; Yoo, Hyunjae; Whang, Dongmok; Yang, Cheol-Woong , Control of oxidation behavior in high vacuum transmission electron microscopy, 2021, Materials Characterization, 10.1016/j.matchar.2020.110870
In Situ TEM Study of Rh Particle Sintering for Three-Way Catalysts in High Temperatures	https://www.mdpi.com/2073-4344/11/1/19	Nakayama, Hiroki; Nagata, Makoto; Abe, Hideki; Shimizu, Yukihiro , In Situ TEM Study of Rh Particle Sintering for Three-Way Catalysts in High Temperatures, 2021, Catalysts, 10.3390/catal11010019
Formation of arsenic clusters in InAs nanowires with an Al 2 O 3 shell	https://pubs.rsc.org/en/content/articlelanding/2021/ra/d0ra06505f	Kim, In; Choi, Suji; Kwon, Ji-Hwan; Jung Ahn, Sang; Sun Yeom, Min; Seong Lee, Ho; Yi, Seong-Hoon; Heon Kim, Young , Formation of arsenic clusters in InAs nanowires with an Al 2 O 3 shell, 2021, RSC Advances, 10.1039/D0RA06505F
Combining in-situ TEM observations and theoretical calculation for revealing the thermal stability of CeO2 nanoflowers	https://doi.org/10.1007/s12274-021-3659-6	Zhu, Mingyun; Yin, Kuibo; Wen, Yifeng; Song, Shugui; Xiong, Yuwei; Dai, Yunqian; Sun, Litao , Combining in-situ TEM observations and theoretical calculation for revealing the thermal stability of CeO2 nanoflowers, 2021, Nano Research, 10.1007/s12274-021-3659-6
Negative Thermal Expansion HfV2O7 Nanostructures for Alleviation of Thermal Stress in Nanocomposite Coatings	https://doi.org/10.1021/acsami.1c10867	Liu, Guan-Wen; Zhang, Yuwei; Thomas, Melonie P.; Ullah, Ahamed; Pharr, Matt; Guiton, Beth S.; Banerjee, Sarbajit , Negative Thermal Expansion HfV2O7 Nanostructures for Alleviation of Thermal Stress in Nanocomposite Coatings, 2021, ACS Applied Materials & Interfaces, 10.1021/acsami.1c10867
Catalysts by pyrolysis: Direct observation of chemical and morphological transformations leading to transition metal-nitrogen-carbon materials	https://www.sciencedirect.com/science/article/pii/S136970212100050X	Huang, Ying; Chen, Yechuan; Xu, Mingjie; Asset, Tristan; Tieu, Peter; Gili, Albert; Kulkarni, Devashish; De Andrade, Vincent; De Carlo, Francesco; Barnard, Harold S.; Doran, Andrew; Parkinson, Dilworth Y.; Pan, Xiaoqing; Atanassov, Plamen; Zenyuk, Iryna V. , Catalysts by pyrolysis: Direct observation of chemical and morphological transformations leading to transition metal-nitrogen-carbon materials, 2021, Materials Today, 10.1016/j.mattod.2021.02.006
Atomic-scale investigation of Na3V2(PO4)3 formation process in chemical infiltration via in situ transmission electron microscope for solid-state sodium batteries	https://www.sciencedirect.com/science/article/pii/S2211285521004006	Yu, Tzu-Hsuan; Huang, Chih-Yang; Wu, Min-Ci; Chen, Yen-Jung; Lan, Tu; Tsai, Chih-Long; Chang, Jeng-Kuei; Eichel, Rüdiger-A.; Wu, Wen-Wei , Atomic-scale investigation of Na3V2(PO4)3 formation process in chemical infiltration via in situ transmission electron microscope for solid-state sodium batteries, 2021, Nano Energy, 10.1016/j.nanoen.2021.106144
Towards a library of atomically dispersed catalysts	https://www.sciencedirect.com/science/article/pii/S0264127521006353	Cai, Xiangbin; Chen, Xiaowen; Ying, Zhehan; Wang, Shi; Chen, Yong; Cai, Yuan; Long, Gen; Liu, Hongyang; Wang, Ning , Towards a library of atomically dispersed catalysts, 2021, Materials & Design, 10.1016/j.matdes.2021.110080
Liquid-Assisted Vapor–Solid–Solid Silicon Nanowire Growth Mechanism Revealed by In Situ TEM When Using Cu–Sn Bimetallic Catalysts	https://doi.org/10.1021/acs.jpcc.1c05402	Ngo, Éric; Wang, Weixi; Bulkin, Pavel; Florea, Ileana; Foldyna, Martin; Roca i Cabarrocas, Pere; Maurice, Jean-Luc , Liquid-Assisted Vapor–Solid–Solid Silicon Nanowire Growth Mechanism Revealed by In Situ TEM When Using Cu–Sn Bimetallic Catalysts, 2021, The Journal of Physical Chemistry C, 10.1021/acs.jpcc.1c05402
Direct View on the Origin of High Li+ Transfer Impedance in All-Solid-State Battery	https://onlinelibrary.wiley.com/doi/abs/10.1002/adfm.202103971	Yang, Liting; Li, Xiao; Pei, Ke; You, Wenbin; Liu, Xianhu; Xia, Hui; Wang, Yonggang; Che, Renchao , Direct View on the Origin of High Li+ Transfer Impedance in All-Solid-State Battery, 2021, Advanced Functional Materials, 10.1002/adfm.202103971
In situ TEM observations of void movement in Ag nanowires affecting the electrical properties under biasing	https://pubs.rsc.org/en/content/articlelanding/2021/cc/d1cc03300j	Hsueh, Yu-Hsiang; Ranjan, Ashok; Lyu, Lian-Ming; Hsiao, Kai-Yuan; Lu, Ming-Yen , In situ TEM observations of void movement in Ag nanowires affecting the electrical properties under biasing, 2021, Chemical Communications, 10.1039/D1CC03300J
A Fast and Implantation-Free Sample Production Method for Large Scale Electron-Transparent Metallic Samples Destined for MEMS-Based In Situ S/TEM Experiments	https://www.mdpi.com/1996-1944/14/5/1085	Tunes, Matheus A.; Quick, Cameron R.; Stemper, Lukas; Coradini, Diego S. R.; Grasserbauer, Jakob; Dumitraschkewitz, Phillip; Kremmer, Thomas M.; Pogatscher, Stefan , A Fast and Implantation-Free Sample Production Method for Large Scale Electron-Transparent Metallic Samples Destined for MEMS-Based In Situ S/TEM Experiments, 2021, Materials, 10.3390/ma14051085
Experimental observation of carousel-like phason flips in the decagonal quasicrystal Al60Cr20Fe10Si10	https://journals.iucr.org/a/issues/2021/05/00/ug5027/	He, Z.; Maurice, J.-L.; Ma, H.; Wang, Y.; Li, H.; Zhang, T.; Ma, X.; Steurer, W. , Experimental observation of carousel-like phason flips in the decagonal quasicrystal Al60Cr20Fe10Si10, 2021, Acta Crystallographica Section A: Foundations and Advances, 10.1107/S2053273321007518
Grain boundary segregation induced precipitation in a non equiatomic nanocrystalline CoCuFeMnNi compositionally complex alloy	https://www.sciencedirect.com/science/article/pii/S1359645421006613	Mantha, Lakshmi Sravani; MacDonald, Benjamin. E.; Mu, Xiaoke; Mazilkin, Andrey; Ivanisenko, Julia; Hahn, Horst; Lavernia, E. J.; Katnagallu, Shyam; Kübel, Christian , Grain boundary segregation induced precipitation in a non equiatomic nanocrystalline CoCuFeMnNi compositionally complex alloy, 2021, Acta Materialia, 10.1016/j.actamat.2021.117281
Monitoring Electrical Biasing of Pb(Zr0.2Ti0.8)O3 Ferroelectric Thin Films In Situ by DPC-STEM Imaging	https://www.mdpi.com/1996-1944/14/16/4749	Vogel, Alexander; Sarott, Martin F.; Campanini, Marco; Trassin, Morgan; Rossell, Marta D. , Monitoring Electrical Biasing of Pb(Zr0.2Ti0.8)O3 Ferroelectric Thin Films In Situ by DPC-STEM Imaging, 2021, Materials, 10.3390/ma14164749
In situ atomic-scale studies of thermal stability and surface reconstruction of ZnO nanowires based Pd nanocatalysts	https://www.sciencedirect.com/science/article/pii/S0264127521005013	Ying, Zhehan; Diao, Jiangyong; Wang, Shi; Cai, Xiangbin; Cai, Yuan; Liu, Hongyang; Wang, Ning , In situ atomic-scale studies of thermal stability and surface reconstruction of ZnO nanowires based Pd nanocatalysts, 2021, Materials & Design, 10.1016/j.matdes.2021.109947
Thermal stability, ripening dynamics and coalescing microstructures of reduced graphene oxide-based platinum nanocatalysts: An in-situ TEM study	https://www.sciencedirect.com/science/article/pii/S0925963521004532	Ying, Zhehan; Diao, Jiangyong; Wang, Shi; Cai, Xiangbin; Cai, Yuan; Liu, Hongyang; Wang, Ning , Thermal stability, ripening dynamics and coalescing microstructures of reduced graphene oxide-based platinum nanocatalysts: An in-situ TEM study, 2021, Diamond and Related Materials, 10.1016/j.diamond.2021.108690
Thermal Effect and Rayleigh Instability of Ultrathin 4H Hexagonal Gold Nanoribbons	https://linkinghub.elsevier.com/retrieve/pii/S2590238519302735	Li, Peifeng; Han, Ying; Zhou, Xiao; Fan, Zhanxi; Xu, Shang; Cao, Ke; Meng, Fanling; Gao, Libo; Song, Jun; Zhang, Hua; Lu, Yang , Thermal Effect and Rayleigh Instability of Ultrathin 4H Hexagonal Gold Nanoribbons, 2020, Matter, 10.1016/j.matt.2019.10.003
Nanoscale temperature measurement during temperature controlled in situ TEM using Al plasmon nanothermometry	http://www.sciencedirect.com/science/article/pii/S0304399119300932	Chmielewski, A.; Ricolleau, C.; Alloyeau, D.; Wang, G.; Nelayah, J. , Nanoscale temperature measurement during temperature controlled in situ TEM using Al plasmon nanothermometry, 2020, Ultramicroscopy, 10.1016/j.ultramic.2019.112881