Personensuche
X
?
1
Table_1_Use of Protein Content, Amylose Content, and RVA Pa..:
Shijie Shi (11940845) ; Enting Wang (11940848) ; Chengxuan Li (11581152)...
https://figshare.com/articles/dataset/Table_1_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317789. , 2022
https://figshare.com/articles/dataset/Table_1_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317789. , 2022
?
2
Helical Fiber Strain Sensors Based on Triboelectric Nanogen..:
Chuan Ning (9609971) ; Renwei Cheng (9609968) ; Yang Jiang (46459)...
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096084. , 2022
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096084. , 2022
?
3
Helical Fiber Strain Sensors Based on Triboelectric Nanogen..:
Chuan Ning (9609971) ; Renwei Cheng (9609968) ; Yang Jiang (46459)...
https://figshare.com/articles/journal_contribution/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096075. , 2022
https://figshare.com/articles/journal_contribution/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096075. , 2022
?
4
Table_4_Use of Protein Content, Amylose Content, and RVA Pa..:
Shijie Shi (11940845) ; Enting Wang (11940848) ; Chengxuan Li (11581152)...
https://figshare.com/articles/dataset/Table_4_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317798. , 2022
https://figshare.com/articles/dataset/Table_4_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317798. , 2022
?
5
A Flexible and Ultra-Highly Sensitive Tactile Sensor throug..:
Yang Jiang (46459) ; Fei Liang (483436) ; Hua Yang Li (1561495)...
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895136. , 2022
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895136. , 2022
?
6
Table_2_Use of Protein Content, Amylose Content, and RVA Pa..:
Shijie Shi (11940845) ; Enting Wang (11940848) ; Chengxuan Li (11581152)...
https://figshare.com/articles/dataset/Table_2_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317792. , 2022
https://figshare.com/articles/dataset/Table_2_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317792. , 2022
?
7
A Flexible and Ultra-Highly Sensitive Tactile Sensor throug..:
Yang Jiang (46459) ; Fei Liang (483436) ; Hua Yang Li (1561495)...
https://figshare.com/articles/journal_contribution/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895139. , 2022
https://figshare.com/articles/journal_contribution/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895139. , 2022
?
8
Helical Fiber Strain Sensors Based on Triboelectric Nanogen..:
Chuan Ning (9609971) ; Renwei Cheng (9609968) ; Yang Jiang (46459)...
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096078. , 2022
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096078. , 2022
?
9
A Flexible and Ultra-Highly Sensitive Tactile Sensor throug..:
Yang Jiang (46459) ; Fei Liang (483436) ; Hua Yang Li (1561495)...
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895142. , 2022
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895142. , 2022
?
10
Helical Fiber Strain Sensors Based on Triboelectric Nanogen..:
Chuan Ning (9609971) ; Renwei Cheng (9609968) ; Yang Jiang (46459)...
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096081. , 2022
https://figshare.com/articles/media/Helical_Fiber_Strain_Sensors_Based_on_Triboelectric_Nanogenerators_for_Self-Powered_Human_Respiratory_Monitoring/19096081. , 2022
?
11
Table_3_Use of Protein Content, Amylose Content, and RVA Pa..:
Shijie Shi (11940845) ; Enting Wang (11940848) ; Chengxuan Li (11581152)...
https://figshare.com/articles/dataset/Table_3_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317795. , 2022
https://figshare.com/articles/dataset/Table_3_Use_of_Protein_Content_Amylose_Content_and_RVA_Parameters_to_Evaluate_the_Taste_Quality_of_Rice_xlsx/18317795. , 2022
?
12
A Flexible and Ultra-Highly Sensitive Tactile Sensor throug..:
Yang Jiang (46459) ; Fei Liang (483436) ; Hua Yang Li (1561495)...
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895133. , 2022
https://figshare.com/articles/media/A_Flexible_and_Ultra-Highly_Sensitive_Tactile_Sensor_through_a_Parallel_Circuit_by_a_Magnetic_Aligned_Conductive_Composite/17895133. , 2022
?
13
Image_2_The EIF4A3/CASC2/RORA Feedback Loop Regulates the A..:
Junshuang Zhao (9350474) ; Yang Jiang (46459) ; Lian Chen (559450)...
https://figshare.com/articles/figure/Image_2_The_EIF4A3_CASC2_RORA_Feedback_Loop_Regulates_the_Aggressive_Phenotype_in_Glioblastomas_tif/15089742. , 2021
https://figshare.com/articles/figure/Image_2_The_EIF4A3_CASC2_RORA_Feedback_Loop_Regulates_the_Aggressive_Phenotype_in_Glioblastomas_tif/15089742. , 2021
?
14
Image_1_Pan-Cancer Analysis of NOS3 Identifies Its Expressi..:
Dan Zou (291008) ; Zhi Li (72309) ; Fei Lv (4397107)...
https://figshare.com/articles/figure/Image_1_Pan-Cancer_Analysis_of_NOS3_Identifies_Its_Expression_and_Clinical_Relevance_in_Gastric_Cancer_TIF/14158502. , 2021
https://figshare.com/articles/figure/Image_1_Pan-Cancer_Analysis_of_NOS3_Identifies_Its_Expression_and_Clinical_Relevance_in_Gastric_Cancer_TIF/14158502. , 2021
?
15
datasheet1_Molecular Targeted Agent and Immune Checkpoint I..:
Huaiyu Zhang (439766) ; Jiayu Zhang (128702) ; Yilun Liu (54956)..
https://figshare.com/articles/dataset/datasheet1_Molecular_Targeted_Agent_and_Immune_Checkpoint_Inhibitor_Co-Loaded_Thermosensitive_Hydrogel_for_Synergistic_Therapy_of_Rectal_Cancer_docx/14431466. , 2021
https://figshare.com/articles/dataset/datasheet1_Molecular_Targeted_Agent_and_Immune_Checkpoint_Inhibitor_Co-Loaded_Thermosensitive_Hydrogel_for_Synergistic_Therapy_of_Rectal_Cancer_docx/14431466. , 2021