Additional file 1: of Molecular cytogenetic identification of three rust-resistant wheat-Thinopyrum ponticum partial amphiploids

Figure S1. Reaction to stripe rust CYR32 of SN0389, SN0398 and SN0406. (TIF 1679 kb

sj-docx-4-cre-10.1177_02692155241251434 - Supplemental material for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity

Supplemental material, sj-docx-4-cre-10.1177_02692155241251434 for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity by Zhaoyang Wang, Tao Zhang, Jingyuan Fan, Fanbin Gu, Qiuhua Yu, Honggang Wang, Jiantao Yang and Qingtang Zhu in Clinical Rehabilitation</p

sj-docx-2-cre-10.1177_02692155241251434 - Supplemental material for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity

Supplemental material, sj-docx-2-cre-10.1177_02692155241251434 for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity by Zhaoyang Wang, Tao Zhang, Jingyuan Fan, Fanbin Gu, Qiuhua Yu, Honggang Wang, Jiantao Yang and Qingtang Zhu in Clinical Rehabilitation</p

sj-docx-1-cre-10.1177_02692155241251434 - Supplemental material for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity

Supplemental material, sj-docx-1-cre-10.1177_02692155241251434 for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity by Zhaoyang Wang, Tao Zhang, Jingyuan Fan, Fanbin Gu, Qiuhua Yu, Honggang Wang, Jiantao Yang and Qingtang Zhu in Clinical Rehabilitation</p

sj-docx-3-cre-10.1177_02692155241251434 - Supplemental material for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity

Supplemental material, sj-docx-3-cre-10.1177_02692155241251434 for Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity by Zhaoyang Wang, Tao Zhang, Jingyuan Fan, Fanbin Gu, Qiuhua Yu, Honggang Wang, Jiantao Yang and Qingtang Zhu in Clinical Rehabilitation</p

Additional file 1: of Synthesis and Study of Optical Characteristics of Ti0.91O2/CdS Hybrid Sphere Structures

Optical measurement of alternating ultrathin Ti0.91O2 nanosheets and CdS nanoparticles hybrid spherical structures by the layer-by-layer assembly technique. (DOC 593 kb

Casein Phosphopeptide-Biofunctionalized Graphene Biocomposite for Hydroxyapatite Biomimetic Mineralization

Casein phosphopeptides (CPPs) with abundant phosphoserine clusters can mediate hydroxyapatite (HA) nucleation and growth. In this work, a new type of CPPs-biofuctionalized graphene composite was synthesized by amidation reaction between CPPs and carboxyalated graphene (CGO). When immersed in stimulated body fluid (1.5 × SBF) at 37 °C for different periods, the CPPs layer on the composite facilitated efficient interaction between the CGO surface and mineral ions, which promoted HA nanoparticle formation and shortened mineralization time in comparison with pristine CGO. The synthesis of the composite mimicked the natural biomineralization of bone, demonstrating that CPPs can effectively improve the bioactivity of graphene and be useful for HA formation. The presented biocomposite may have potential biomedical applications in different areas

Additional file 1 of Reliability of a human pose tracking algorithm for measuring upper limb joints: comparison with photography-based goniometry

Additional file 1: Supplementary Figure 1. Measurement setup during the 6-motion task. A) setups of the environment; B) diagram of the 6-motions task

Additional file 2 of Reliability of a human pose tracking algorithm for measuring upper limb joints: comparison with photography-based goniometry

Additional file 2: Supplementary Figure 2. Results obtained from the proposed method

<i>In Situ</i> Imaging of Two-Dimensional Crystal Growth Using a Heat-Resistant Optical Microscope

Revealing low-dimensional material growth dynamics is critical for crystal growth engineering. However, in a practical high-temperature growth system, the crystal growth process is a black box because of the lack of heat-resistant imaging tools. Here, we develop a heat-resistant optical microscope and embed it in a chemical vapor deposition (CVD) system to investigate two-dimensional (2D) crystal growth dynamics. This in situ optical imaging CVD system can tolerate temperatures of ≤900 °C with a spatial resolution of ∼1 μm. The growth of monolayer MoS2 crystals was studied as a model for 2D crystal growth. The nucleation and growth process have been imaged. Model analysis and simulation have revealed the growth rate, diffusion coefficient, and spatial distribution of the precursor. More importantly, a new vertex–kink–ledge model has been suggested for monolayer crystal growth. This work provides a new technique for in situ microscopic imaging at high temperatures and fundamental insight into 2D crystal growth