SolarWindow Responds to Short-And-Distort Campaign: “We Will Not be Bullied. We Will Protect Our Stockholders.”

New York, New York; Seoul, South Korea – February 24, 2021 – SolarWindow Technologies, Inc. (Symbol: WNDW) today issued a stern warning to financial predators orchestrating a “short-and-distort” campaign, utilizing innuendos, false conclusions, and mischaracterizations designed to discredit the Company in order to manipulate the share price downwards and profit at the expense of SolarWindow stockholders.

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SolarWindow Achieves 12-Fold Increase in Rapid Prototyping of Electricity-Generating Glass & Plastics

New York, New York; Seoul, South Korea – February 17, 2021 – SolarWindow Technologies, Inc. (Symbol: WNDW) today reported a 500% increase in prototyping and testing speed; 12-fold increase in testing capacity and output; and 20-times reduction in material costs. Engineers attribute these record results to the Company’s new ‘high-output platform’ for lab-scale prototyping of SolarWindow electricity-generating plastics and glass for commercial building windows, transportation, greenhouses, and other applications.

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SolarWindow Director John Rhee to Deliver Keynote Address at Dartmouth College Tuck School of Business Private Equity and Venture Capital Conference

New York, New York; Seoul, South Korea – January 29, 2021 – SolarWindow Technologies, Inc. (Symbol: WNDW), developer of transparent electricity-generating coatings for glass and plastics, is pleased to announce that SolarWindow Director Mr. John Rhee is presenting a keynote address on innovation, renewable energy, and the role SolarWindow can play in climate tech and sustainability in the capital markets.

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SolarWindow Innovation Bolsters Electricity-Generating Plastic

Vestal, NY – June 3rd, 2020 – SolarWindow Technologies, Inc. (Symbol: WNDW), developer of transparent electricity-generating coatings for glass or plastics, is pleased to announce that recent initiatives to optimize its fabrication processes have resulted in favorable improvements to its laser patterning systems for our electricity-generating coatings on flexible plastics.

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