Browsing by Author "Lai, Chia-Yun"

Now showing items 1-4 of 4

    • Advances in dynamic AFM: from nanoscale energy dissipation to material properties in the nanoscale 

      Santos Hernández, Sergio; Gadelrab, Karim Raafat; Lai, Chia-Yun; Olukan, Tuza; Font Teixidó, Josep; Barcons Xixons, Víctor; Verdaguer Prats, Albert; Chiesa, Matteo (2021-04-02)
      Article
      Open Access
      Since the inception of the atomic force microscope (AFM), dynamic methods (dynamic atomic force microscopy) have been very fruitful by establishing methods to quantify dissipative and conservative forces in the nanoscale ...

    • Establishing nanoscale heterogeneity with nanoscale force measurements 

      Chang, Yun-Hsiang, Yun-Hsiang; Olukan, Tuza; Lai, Chia-Yun; Santos, Sergio; Lin, Tze-Yu; Apostoleris, Harry; Font Teixidó, Josep; Barcons Xixons, Víctor; Chiesa, Matteo (2015-08-13)
      Article
      Open Access
      Establishing the presence or absence of nanoscale compositional heterogeneity with nanoscale resolution is becoming instrumental for the development of many fields of science. Force versus distance measurements and parameters ...

    • Periodicity in bimodal atomic force microscopy 

      Lai, Chia-Yun; Barcons Xixons, Víctor; Santos, Sergio; Chiesa, Matteo (American Institute of Physics (AIP), 2015-07-28)
      Article
      Open Access
      Periodicity is fundamental for quantification and the application of conservation principles of many important systems. Here, we discuss periodicity in the context of bimodal atomic force microscopy (AFM). The relationship ...

    • The Mendeleev-Meyer force project 

      Santos Hernández, Sergio; Lai, Chia-Yun; Amadei, Carlo Alberto; Gadelrab, Karim Raafat; Tang, Tzu-Chieh; Verdaguer Prats, Albert; Barcons Xixons, Víctor; Font Teixidó, Josep; Colchero, Jaimer; Chiesa, Matteo (2016-10-28)
      Article
      Open Access
      Here we present the Mendeleev–Meyer Force Project which aims at tabulating all materials and substances in a fashion similar to the periodic table. The goal is to group and tabulate substances using nanoscale force footprints ...