The CD47/signal regulatory protein alpha (SIRP-) axis is a key molecular interaction that inhibits antitumor activation by macrophages and myeloid cells, thereby acting as a myeloid-specific immune checkpoint. Blocking CD47/ SIRP- interaction promotes phagocytosis of tumor cells. Currently, CD47 antibody in clinical trial showed RBC agglutination and this effect may cause safety risk issue. In this thesis new human CD47 blocking antibodies were identified from a cancer patient antibody Fab library. The anti-CD47 antibodies exhibited high affinity and specificity against recombinant and cell surface CD47, which are able to inhibit the CD47-SIRP- interaction comparable to Hu5F9-G4, which is a humanized CD47 blocking antibody currently under clinical investigations. The human IgG4-reformatted CD47 antibodies, CwP1A1, CwP2F12, and BrP1F11, were generated dependent on the result of affinity screening. The IgG4-reformatted CD47 blocking antibody were confirmed to be effective in treatment of a cancer since it is found that the IgG4-reformatted CD47 blocking antibody treated cancer cells, such as Jurkat-1 or HL-60 cells, and induced robust phagocytosis activity explicated by polarized THP-1 macrophages as well as peripheral blood mononuclear cell (PBMC), but not antibody-dependent cell-mediated cytotoxicity (ADCC) and apoptosis of tested cancer cells, in vitro. Furthermore, CwP1A1 and BrP1F11 did not induce hemagglutination of human RBCs compared to Hu5F9-G4. Finally, CwP1A1 showed the good anti-tumor activities in both hematologic and solid tumor cell lines mouse xenograft model. In the future, we will further confirm the safety of these antibodies and further study these antibodies in clinical trials.