Abstract: A non-volatile memory device includes at least one memory cell including a substrate, an assist gate, a byte select gate, a floating gate, and an upper gate. The substrate includes a first doped region and a second doped region. The assist gate is disposed on the substrate and adjacent to the second doped region. The byte select gate is disposed on the substrate and adjacent to the first doped region. The floating gate is disposed on the substrate and between the assist gate and byte select gate, and the floating gate includes an upper edge higher than top surfaces of the assist gate and the byte select gate. The upper gate covers the assist gate and the floating gate, and the upper gate is spaced apart from the byte select gate. The upper edge of the floating gate is embedded in the upper gate.

Abstract: A non-volatile memory device includes at least one memory cell, and the memory cell includes a substrate, an assist gate structure, a tunneling dielectric layer, a floating gate, and an upper gate structure. The assist gate structure is disposed on the substrate. The floating gate includes two opposite first top edges arranged along a first direction, two opposite first sidewalls arranged along the first direction, and two opposite second sidewalls arranged along a second direction different from the first direction. The upper gate structure covers the assist gate structure and the floating gate, where at least one of the first top edges of the floating gate is embedded in the upper gate structure. Portions of the upper gate structure extend beyond the second sidewalls of the floating gate in the second direction, and the portions of the upper gate structure are disposed above the substrate.

Abstract: A non-volatile memory device includes at least one memory cell, and the at least one memory cell includes a substrate, a stacked structure, a tunneling dielectric layer, a floating gate, a control gate structure, and an erase gate structure. The stacked structure is disposed on the substrate, and includes a gate dielectric layer, an assist gate, and an insulation layer stacked in order. The tunneling dielectric layer is disposed on the substrate at one side of the stacked structure. The floating gate is disposed on the tunneling dielectric layer and includes an uppermost edge and a curved sidewall. The control gate structure covers the curved sidewall of the floating gate. The erase gate structure covers the floating gate and the control gate structure, and the uppermost edge of the floating gate is embedded in the erase gate structure.

Abstract: A method of manufacturing a non-volatile memory includes the following steps. A stacked structure is formed on a substrate and includes a gate dielectric layer, an assist gate, an insulation layer, and a sacrificial layer stacked in order. A tunneling dielectric layer is formed at one side of the stacked structure. A floating gate is formed on the tunneling dielectric layer. The stacked structure is etched until an uppermost edge of the floating gate is higher than a top surface of the insulation layer. A dielectric material layer is formed to cover sidewalls of the floating gate. The dielectric material layer is etched to form an etched dielectric material layer and expose the uppermost edge of the floating gate. An upper gate structure is formed on the etched dielectric material layer, where a portion of the etched dielectric material layer is disposed between the upper gate structure and the substrate.

Abstract: A non-volatile memory having memory cells is provided. The memory cell includes a source region and a drain region, a select gate, a dummy select gate, a floating gate, an erase gate, and a control gate. The select gate is disposed on the substrate between the source region and the drain region. The floating gate is disposed on the substrate between the select gate and the source region, and a top portion of the floating gate has corners in symmetry. The height of the floating gate is lower than the height of the select gate. The erase gate is provided on the source region and covers the corner at the side of the source. The control gate is disposed on the erase gate and the floating gate.

Abstract: A non-volatile memory having memory cells is provided. The memory cell includes a source region and a drain region, a select gate, a dummy select gate, a floating gate, an erase gate, and a control gate. The select gate is disposed on the substrate between the source region and the drain region. The floating gate is disposed on the substrate between the select gate and the source region, and a top portion of the floating gate has corners in symmetry. The height of the floating gate is lower than the height of the select gate. The erase gate is provided on the source region and covers the corner at the side of the source. The control gate is disposed on the erase gate and the floating gate.

Abstract: A non-volatile memory having memory cells is provided. A stacked gate structure has gate dielectric layer, assist gate, insulation layer, and erase gate disposed in order. The floating gate is disposed on a first sidewall of the stacked gate structure, the floating gate has a corner portion at the top portion, and erase gate covers the corner portion. The tunneling dielectric layer is disposed under the floating gate. The erase gate dielectric layer is disposed between the erase gate and the floating gate. The assist gate dielectric layer is disposed between the assist gate and the floating gate. The source region and the drain region are respectively disposed at two sides of the stacked structure and the floating gate. The control gate is disposed on the source region and the floating gate. The inter-gate dielectric layer is disposed between the control gate and the floating gate.

Abstract: A non-volatile memory having memory cells is provided. The memory cells include stack structures, floating gates, tunneling dielectric layers, erase gate dielectric layers, auxiliary gate dielectric layers, source regions, drain regions, control gates and inter-gate dielectric layers. The stacked structures include gate dielectric layers, auxiliary gates, insulating layers and erase gates. The floating gates are disposed on sidewalls on a first side of the stacked structures. The tunneling dielectric layers are disposed under the floating gates. The erase gate dielectric layers are disposed between the erase gates and floating gates. The auxiliary gate dielectric layers are disposed between the auxiliary gates and the floating gates. The source and drain regions are separately disposed on sides of the stack structures and the floating gates. The control gates are disposed on the source regions and the floating gates.