Abstract: The invention provides a light generating system (1000) comprising a LED module (100), a module support (200), and a connector element (300), wherein: the module support (200) comprises a first module support opening (230) for hosting at least part of a first connector element part (310); the LED module (100) comprises a LED support (120) and a plurality of LEDs (10) functionally coupled to the LED support (120), wherein the LED support (120) comprises a LED support opening (130) for hosting at least part of the first connector element part (310); and wherein the plurality of LEDs (10) are configured to generate light source light (11); the connector element (300) comprises the first connector element part (310), and wherein the first connector element part (310) comprises a first spring part (315); at least part of the first connector element part (310) penetrates through the first module support opening 230); and the LED support opening (130), the first connector element part (310), and the module support (

Abstract: The invention provides a light generating system (1000) comprising a LED module (100), a module support (200), and a connector element (300), wherein: the module support (200) comprises a first module support opening (230) for hosting at least part of a first connector element part (310); the LED module (100) comprises a LED support (120) and a plurality of LEDs (10) functionally coupled to the LED support (120), wherein the LED support (120) comprises a LED support opening (130) for hosting at least part of the first connector element part (310); and wherein the plurality of LEDs (10) are configured to generate light source light (11); the connector element (300) comprises the first connector element part (310), and wherein the first connector element part (310) comprises a first spring part (315); at least part of the first connector element part (310) penetrates through the first module support opening 230); and the LED support opening (130), the first connector element part (310), and the module support (

Abstract: An OLED lighting module comprising a support (2); an OLED lighting panel (3) with an emissive side with emissive and non-emissive areas (38) and an opposite side which comprises an OLED substrate (31), an OLED light-generating unit and a circuit board (34); an opaque liner with a first section (41) that covers at least part of the non-emitting areas (38) over the OLED substrate and a second section (42) that extend past the edges of the OLED substrate on the emissive side of the OLED panel; and an opaque bezel (6) in contact with the support (20), the opaque bezel (6) covering at least part of the second section (42) of the opaque liner but not the first section (41) of the opaque liner. By covering only that portion of an opaque liner that extends past the edges of the OLED substrate with a bezel and not the OLED substrate itself, the module can be made thin.

Abstract: An OLED lighting module comprising a support (2); an OLED lighting panel (3) with an emissive side with emissive and non-emissive areas (38) and an opposite side which comprises an OLED substrate (31), an OLED light-generating unit and a circuit board (34); an opaque liner with a first section (41) that covers at least part of the non-emitting areas (38) over the OLED substrate and a second section (42) that extend past the edges of the OLED substrate on the emissive side of the OLED panel; and an opaque bezel (6) in contact with the support (20), the opaque bezel (6) covering at least part of the second section (42) of the opaque liner but not the first section (41) of the opaque liner. By covering only that portion of an opaque liner that extends past the edges of the OLED substrate with a bezel and not the OLED substrate itself, the module can be made thin.

Abstract: The invention provides a method for 3D printing a 3D item, the method comprising providing 3D printable material (201) and printing during a printing stage said 3D printable material (201), wherein the 3D printable material (201) comprises a thermoplastic material, to provide said 3D item, wherein the 3D item comprises an item surface, wherein the method further comprises providing a powder coating with a powder coating device (595) on at least part of said item surface during a coating stage. The invention also relates to the item manufactured by such method and to the manufacturing apparatus (500) used.

Abstract: An electrostatically controllable optical device is provided, comprising: a transmissive substrate (101); a single transmissive electrode (102) arranged on a surface of said substrate; a transmissive dielectric layer (103) arranged on said electrode; and a flexible roll-up blind (104) attached to said dielectric layer, said flexible roll-up blind comprising a flexible electrode (106) and a flexible optically functional layer (105) provided on said flexible electrode, said flexible roll-up blind having naturally a rolled configuration and being capable of unrolling in a roll-out direction in response to an electrostatic force.

Abstract: An electrostatically controllable optical device is provided, comprising:—a transmissive substrate (101);—a transmissive electrode (102) arranged on a surface of said substrate;—a transmissive dielectric layer (103) arranged on said electrode; and—a flexible roll-up blind (104) attached to said dielectric layer, said flexible roll-up blind comprising a flexible electrode (106) and a flexible optically functional layer (105) provided on said flexible electrode, said flexible roll-up blind having naturally a rolled configuration and being capable of unrolling in a roll-out direction in response to an electrostatic force.

Abstract: Alight control panel is provided, comprising: a transmissive substrate; a transmissive electrically conductive layer arranged on a surface of said substrate; a transmissive dielectric layer arranged on said electrically conductive layer; a flexible roll-up blind attached to said dielectric layer, said flexible roll-up blind layer comprising a flexible electrically conductive layer and a flexible optically functional layer, said flexible layer having naturally a rolled configuration and being capable of unrolling in response to electrostatic force; and an optoelectronic device. The panel may be useful in various energy saving applications including smart windows for buildings or vehicles, e.g. providing an energy efficient light source or utilizing solar radiation for energy conversion.